pennsylvania cmf guide

PENNSYLVANIA CMF GUIDE

Prepared for:

Pennsylvania Department of Transportation

Prepared by:

Vikash V. Gayah Assistant Professor

Eric T. Donnell

Associate Professor

Paul P. Jovanis Professor

Department of Civil and Environmental Engineering

Pennsylvania State University 217 Sackett Building

University Park, PA 16082

The Thomas D. Larson

Pennsylvania Transportation Institute 201 Transportation Research Building

University Park, PA 16802

August 2014

Table of Contents

Introduction .................................................................................................................................. 1

What is a CMF?. ........................................................................................................................... 2

Applying a SingleCMF ................................................................................................................ 4

Applying Multiple CMFs ............................................................................................................ 5

Assessing the Quality of a CMF .................................................................................................. 9

Using the CMF Guide .................................................................................................................. 10

References ..................................................................................................................................... 16

Appendix: Catalog of Crash Modification Factors

Table A. Access Management ...................................................................................................... 17

Table B. Advanced Technology and ITS ....................................................................................... 24

Table C. Alignment ....................................................................................................................... 27

Table D. Bicyclists ........................................................................................................................ 29

Table E. Delineation ..................................................................................................................... 32

Table F. Highway Lighting ........................................................................................................... 36

Table G. Interchange Design ........................................................................................................ 38

Table H. Intersection Geometry .................................................................................................... 42

Table I. Intersection Traffic Control ............................................................................................. 48

Table J. On-Street Parking ............................................................................................................ 58

Table K. Pedestrians ..................................................................................................................... 60

Table L. Railroad Grade Crossings ................................................................................................ 62

Table M. Roadside Features ......................................................................................................... 64

Table N. Roadway Features .......................................................................................................... 67

Table O. Shoulder Treatments ...................................................................................................... 76

Table P. Signs ............................................................................................................................... 89

iii

Table Q. Speed Management ........................................................................................................ 92

Table R. Transit ............................................................................................................................ 95

Table S. Work Zones ..................................................................................................................... 97

Table T. CMF Equations ............................................................................................................. 100

Lower-quality CMFs .................................................................................................................... 107

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Introduction The American Association of State Highway and Transportation Officials’ (AASHTO) Highway Safety Manual (HSM) is transforming the way state and local transportation agencies manage road safety. In addition to providing an overview of many aspects of road safety management, the manual contains a process for evaluating the effectiveness of alternative safety countermeasures based on previous research.

A critical factor in the use of the HSM safety management process is the Crash Modification Factor (CMF). It is used to estimate the change in the expected (average) number of crashes at a site when a specific countermeasure is implemented. This guidebook responds to a request from the Pennsylvania Department of Transportation (PennDOT) to review the existing CMF literature and make recommendations concerning their use in Pennsylvania. The purpose of this guide is to provide a list of CMFs that are appropriate for use when estimating the safety performance of changes on the highway and street network in Pennsylvania, and to demonstrate how to apply them appropriately. The list of CMFs was compiled by reviewing the relevant literature and identifying high-quality CMFs that might be applicable to Pennsylvania roadways. In compiling this list, the following sources were reviewed:

• Federal Highway Administration (FHWA), CMF Clearinghouse website; • AASHTO Highway Safety Manual; • FHWA Desktop Reference for Crash Reduction Factors (Report FHWA-SA-08-011); • Governors Highway Safety Association (GHSA), Countermeasures That Work: A Highway

Safety Countermeasure Guide for State Highway Safety Offices; • FHWA Office of Safety, Proven Safety Countermeasures; • FHWA Toolbox of Countermeasures and Their Potential Effectiveness for Pedestrian Crashes; • FHWA Roadway Departure Countermeasures; • Crash Reduction Factors for Traffic Engineering and Intelligent Transportation Systems (ITS)

Improvements: State-of-Knowledge Report (NCHRP Research Results Digest 299); and • Recently published research literature.

The complete list of CMFs is summarized in a set of tables provided at the end of this document. For countermeasures not provided in these tables, or that were added to the FHWA CMF Clearinghouse after publication of this document, the reader can refer to the FHWA CMF Clearinghouse website (http://www.cmfclearinghouse.org/), which contains the most up-to-date database of CMFs. It is important to note that the FHWA CMF Clearinghouse contains both high- and low-quality CMFs; however, only high-quality CMFs are recommended for application within Pennsylvania. The determination of high-quality CMFs is discussed in the section of this guide titled “Assessing the Quality of a CMF.” A list of low-quality CMFs and their values are also provided at the conclusion of this guide to provide documentation concerning their use. However, because these CMFs are based on either a small sample size, or suffer from a low-quality methodological evaluation, these CMFs are not recommended for use in Pennsylvania.

The rest of this document is organized into five sections. The first section describes what a CMF is and how it is estimated. The next section includes information about how to apply a single CMF to estimate the expected safety performance from a highway improvement or implementation of a countermeasure. Next, a methodology to apply multiple CMFs at a single location is described. The process used to

Pennsylvania CMF Guide Page 1

http://www.cmfclearinghouse.org/

determine the quality of a CMF is described in the subsequent section. The last section of this report includes a description of the CMF tables, which are provided at the end of the guide.

What is a CMF? As defined by the Highway Safety Manual, a CMF is “an index of how much crash experience is expected to change following a modification in design or traffic control” at a particular location. Each CMF is a numerical value that provides the ratio of the expected number of crashes over some unit of time after a change is made to the expected number of crashes for the same time period had the change not been made. Equation 1 shows how the ratio is applied to develop a CMF for a particular countermeasure 𝑖:

𝐶𝑀𝐹𝑖 = 𝐸𝑥𝑝𝑒𝑐𝑡𝑒𝑑 𝑛𝑢𝑚𝑏𝑒𝑟 𝑜𝑓 𝑐𝑟𝑎𝑠ℎ𝑒𝑠 𝑖𝑓 𝑐ℎ𝑎𝑛𝑔𝑒 𝑖 𝑖𝑠 𝑚𝑎𝑑𝑒𝐸𝑥𝑝𝑒𝑐𝑡𝑒𝑑 𝑛𝑢𝑚𝑏𝑒𝑟 𝑜𝑓 𝑐𝑟𝑎𝑠ℎ𝑒𝑠 𝑖𝑓 𝑐ℎ𝑎𝑛𝑔𝑒 𝑖 𝑖𝑠 𝑛𝑜𝑡 𝑚𝑎𝑑𝑒

. (Equation 1)

The percent crash reduction associated with countermeasure 𝑖 is (1 − 𝐶𝑀𝐹𝑖) ∗ 100%.

The true value of the CMF for any countermeasure will always be unknown. The reported value is only an estimate of the true value obtained from a statistical analysis of reported crash data. This reported value (referred to as a point estimate) provides an estimate of the effectiveness of the potential change or countermeasure on crash frequency. CMF values less than 1.0 indicate that the change should reduce crash frequency, while CMF values greater than 1.0 indicate that the change should increase crash frequency. CMF values equal to 1.0 indicate that the change is expected to have no impact on crash frequency.

Since the true CMF value is unknown, there is always some error associated with the point estimate of the CMF. The size of this error provides an indication of the precision of the point estimate. Small errors indicate that the point estimate is precise and the CMF is known with a high degree of certainty, while larger errors suggest that the true CMF may differ significantly from the point estimate. The magnitude of this error depends on several factors, such as the:

• type of study performed, • analysis method used to obtain the estimate, • amount of data used to estimate the CMF, and • variation in the actual crash data used to estimate the CMF.

Various methods exist to estimate CMFs. Rigorous statistical methods to account for variation in the crash data produce less error in the CMF estimates. Studies with more crash data (either from more sites or over a longer period of time) and more geographic variation in the data also provide estimates with smaller errors than those that use little data or data constrained to a smaller geographic area.

Most research studies that estimate a CMF also include an estimate of the amount of error associated with the point estimate. The magnitude of this error is reported as the standard deviation of the error in the point estimate, and this value is referred to as the standard error of the CMF. Careful consideration of the standard error is critical to understanding the range of possible impacts that a highway modification or countermeasure may have on expected crash frequency. One way to quantify this range is by calculating


the confidence interval for the true value of the CMF. The confidence interval is calculated using the following equation:

𝐶𝑜𝑛𝑓𝑖𝑑𝑒𝑛𝑐𝑒 𝐼𝑛𝑡𝑒𝑟𝑣𝑎𝑙 𝑓𝑜𝑟 𝐶𝑀𝐹𝑖 = 𝐶𝑀𝐹𝑖 ± 𝑍 ∗ 𝐸𝑅𝑅𝑂𝑅𝑖, (Equation 2)

where 𝐶𝑀𝐹𝑖 is the point estimate of the CMF for countermeasure 𝑖 as defined in Equation 1, 𝐸𝑅𝑅𝑂𝑅𝑖 is the standard error associated with that point estimate, and 𝑍 is a value associated with the statistical significance of the confidence interval. A 95% confidence interval is sufficient for most typical applications; in this case, 𝑍 = 1.96. Other common 𝑍 values are provided in Table 1.

Table 1. Common Z values to obtain confidence intervals

Type of confidence interval Z value 90% confidence interval 1.64 95% confidence interval 1.96 99% confidence interval 2.58

The confidence interval provides a range that the true value of the CMF should fall within with some degree of certainty. For example, when using a 95% confidence interval, the analyst can claim with 95% confidence that the true value of the CMF falls within this range.

Using the confidence interval for the CMF can provide a more informed indication of the impact of a potential change or countermeasure on crash frequency. If the confidence interval contains the value 1.0, then there is not enough statistical evidence to conclude that applying the change will impact safety performance. If the confidence interval is strictly less than 1.0, the change or countermeasure is expected to reduce crash frequency. If the confidence interval is strictly greater than 1.0, the change or countermeasure is expected to increase crash frequency.

Unfortunately, some sources do not provide estimates of the standard errors associated with CMF point estimates. The point estimates of these CMFs provide a general indication of the expected change in crash frequency. However, if no standard error is provided, the true effects of these countermeasures could vary greatly from the point estimates and the analyst has no indication of the level of uncertainty associated with these estimates. These CMFs should be avoided if at all possible, since their application is unreliable. Instead, the analyst should seek to use CMFs that also provide standard errors, if they are available.

Each CMF is provided for a specific set of conditions (e.g., traffic volumes, roadway types, crash types and severity). These CMFs are only applicable to these specific conditions and should not be applied directly to other situations. There are several reasons for this. Many countermeasures only influence a subset of crash types and/or severities (e.g., shoulder rumble strips will likely reduce run-off-the-road crashes but should not significantly influence rear-end crashes). Therefore, the CMFs for these countermeasures are typically limited in their application to the set of crashes associated with that specific countermeasure. Other countermeasures may have different impacts in different driving environments (e.g., the effectiveness of intersection treatments often varies with the type of control and configuration of the intersection). In addition, CMFs are often only estimated with a subset of crash data (e.g., only using crash records that involve a fatality) and are therefore only useful to describe the influence of a Pennsylvania CMF Guide Page 3

countermeasure for these crash types. Nevertheless, in this case, CMF values can still serve as a guide that, along with engineering judgment, provides some indication of the expected change in crash frequency under alternative conditions, even if no CMFs are available for the specific alternative conditions.

Applying a Single CMF An example is used to illustrate how to apply a single CMF to a particular site and how to interpret the results.

Example Problem: Consider a freeway segment in which the expected crash frequency is 10 crashes per year and 50% of these crashes are expected to involve a major injury. A highway engineer is considering installing shoulder rumble strips as a countermeasure to reduce total crash frequency. A CMF for major injury crashes is available for the installation of shoulder rumble strips on freeways. The CMF point estimate is 0.80 and the standard error is 0.08. The engineer would like to know the following: (1) would installing shoulder rumble strips help to reduce the number of crashes expected at this facility? And (2) how many total crashes should be expected after shoulder rumble strips are installed?

1) Would installing shoulder rumble strips help to reduce the number of crashes expected at this facility?

Since the point estimate of the CMF is less than 1.0, the engineer could conclude that the countermeasure is effective at reducing major crash frequency. However, the standard error of the estimate should be considered to make a more informed decision. The 95% confidence interval for the point estimate is equal to: 0.80 ± 1.96 ∗ 0.08. Therefore, the engineer can be 95% confident that the true point estimate lies between 0.643 and 0.957. Since this entire confidence interval is below 1.0, the engineer could be 95% confident that the countermeasure should reduce crash frequency on this roadway by between (1 −0.957) ∗ 100 = 4.3 and (1 − 0.643) ∗ 100 = 35.7 percent based on Equation 1.

Note that if a 99% confidence interval was used, the point estimate would fall between 0.594 and 1.01. In this case, the confidence interval contains the value 1.0, so the engineer could not be confident that the countermeasure would reduce the crash frequency on this roadway segment. However, for most practical purposes the 95% confidence interval is the most common confidence interval used in traffic safety analyses.

2) How many total crashes should be expected after shoulder rumble strips are installed?

The engineer could apply just the point estimate of the CMF to estimate the number of crashes after installing the countermeasure. Since the CMF applies only to all major injury crashes, it would only affect this specific subset of total crashes. In this case, there are only 5 expected major injury crashes (10 total * 50 percent major injury crashes) per year expected without the countermeasure. Therefore, the expected number of major injury crashes with the countermeasure is: 0.8 ∗ 5 = 4 major injury crashes. The total Pennsylvania CMF Guide Page 4

number of crashes expected for this segment when the countermeasure is applied would then be 9 crashes per year, which includes the 5 non-major injury crashes expected per year.

A more informed answer would also report the confidence interval for total number of crashes, which takes into account the error associated with the CMF. The answer to Question 1 indicates that the 95% confidence interval of the CMF estimate is between 0.643 and 0.957. This suggests that when the countermeasure is applied, the expected number of major injury crashes is between 3.22 and 4.79 crashes per year. Therefore, the total number of crashes expected should fall between 8.22 and 9.79 crashes per year when the 5 non-major injury crashes expected per year are included.

Applying Multiple CMFs Special consideration must be given when applying multiple CMFs simultaneously at the same location. There are two scenarios that might exist when applying multiple CMFs:

• The CMFs impact different crash types • The CMFs impact the same crash types

Each of the scenarios is discussed below.

CMFs impacting different crash types This scenario can occur when multiple countermeasures are implemented simultaneously that impact different crash types or when a single countermeasure is implemented that has unique CMFs for different crash types. In this case, the CMFs are treated independently, since the effects of each are not likely to overlap and the full effects of the countermeasures are expected. Each CMF is then applied directly to the set of crashes that it influences in the manner discussed previously. Confidence intervals for the expected crash frequencies of the individual crash types created in this way are valid.

If the confidence interval for the total number of crashes is desired, the CMFs for the different crash types can be combined using the following formula, which relies on the fact that each crash type is treated independently:

CI for total crashes: ∑ 𝑁𝑖𝐶𝑀𝐹𝑖𝑖 ± 𝑍 ∗ �∑ (𝑁𝑖𝐸𝑅𝑅𝑂𝑅𝑖)2𝑖 , (Equation 3)

where 𝑁𝑖 is the expected number of crashes (before the implementation of a countermeasure) for crash type 𝑖, 𝐶𝑀𝐹𝑖 is the CMF applied to crash type 𝑖, 𝐸𝑅𝑅𝑂𝑅𝑖 is the standard error of the CMF applied to crash type 𝑖, and 𝑍 is the value associated with the statistical significance of the confidence interval.

An example is used to demonstrate how to apply multiple CMFs for countermeasures that influence different crash types.

Example Problem: Consider the implementation of shoulder rumble strips and a median barrier at a particular site with a predicted crash frequency of 5 run-off-the-road crashes and 6 cross-median crashes


(per year). A CMF is available for shoulder rumble strips, which applies to run-off-the-road crashes. The point estimate is 0.84 and the standard error is 0.08. Another CMF is available for median barriers, which applies to cross-median crashes. The point estimate is 0.35 and the standard error is 0.04. How many of each crash type should be expected if both countermeasures are installed? How many total crashes should be expected?

How many of each type of crash should be expected if both countermeasures are installed?

Since the two countermeasures influence different crash types, the two can be treated independently. The CMF for shoulder rumble strips will be applied to only the run-off-the-road crashes, while the CMF for median barriers will be applied to cross-median crashes. The 95% confidence interval for the rumble strips CMF is 0.84 ± 1.96 ∗ 0.08 or 0.683 to 0.997. This is applied only to the run-off-the-road crashes. Therefore, the expected number of run-off-the-road crashes should fall somewhere between 3.42 and 4.99 run-off-the-road crashes per year after the shoulder rumble strips are applied to the site. Similarly, the 95% confidence interval for the CMF for median barriers is 0.35 ± 1.96 ∗ 0.04 or 0.272 to 0.428, and the expected number of cross-median crashes should fall somewhere between 1.63 and 2.59 cross-median crashes per year after median barrier is installed to the site.

How many total crashes should be expected?

To determine the 95% confidence interval for the total expected number of crashes, Equation 3 can be directly applied. The confidence interval is [5(0.84) + 6(0.35)] ± 1.96 ∗ �(5 ∗ 0.08)2 + (6 ∗ 0.04)2 =6.3 ± 1.96 ∗ 0.466. This implies that the number of total crashes expected at this location should fall between 5.38 and 7.22 crashes per year after both countermeasures are installed. Notice that this confidence interval is not simply the sum of the confidence intervals for each crash type. This is because when aggregating multiple (independent) confidence intervals, the variability of the final sum decreases due to aggregation.

CMFs impacting the same crash types This scenario occurs when multiple countermeasures are applied simultaneously at the same location that targets the same crash types. In this case, the analyst must first decide whether to treat the associated countermeasures as if they were independent or dependent.

Independent countermeasures are those with effects that are not expected to overlap and for which the full effects of each countermeasure should be expected. This is the less conservative assumption, since countermeasures that influence the same crash type would generally have overlapping effects. For these independent countermeasures, the current practice suggests that the CMFs be treated multiplicatively. That is, the combined effect is estimated as the product of the individual CMF point estimates, as shown in Equation 4:

𝐶𝑀𝐹𝐶 = ∏ 𝐶𝑀𝐹𝑖𝑖 , (Equation 4) Pennsylvania CMF Guide Page 6

where 𝐶𝑀𝐹𝑖 is the point estimate of each individual CMF 𝑖 and 𝐶𝑀𝐹𝐶 is the combined impact of the combination of multiple independent CMFs. In this case, the standard error of the individual CMFs cannot be directly used when applying multiple independent CMFs at a single location. Instead, a combined standard error must be estimated using the point estimates and standard errors of each individual CMF. As described in Lord (2008), this combined standard error is:

𝐸𝑅𝑅𝑂𝑅𝐶 = �∏ �𝐶𝑀𝐹𝑖2 + 𝐸𝑅𝑅𝑂𝑅𝑖2� − (∏ 𝐶𝑀𝐹𝑖𝑖 )2𝑖 , (Equation 5)

where 𝐶𝑀𝐹𝑖 is the point estimate of each individual CMF 𝑖, 𝐸𝑅𝑅𝑂𝑅𝑖 is the standard error of each individual CMF 𝑖, and 𝐸𝑅𝑅𝑂𝑅𝐶 is the combined error of the product of the independent CMFs.

In general, conservative estimates and assumptions should be used when applying multiple independent CMFs simultaneously. Combining three or more CMFs using the above method is likely to significantly overestimate the true safety effects that can be expected from applying the respective countermeasures. Therefore, this methodology should be discouraged when three or more CMFs are required and another, more conservative method like the one described below, should be used instead.

Dependent countermeasures are those expected to have overlapping effects such that the combination of the multiple countermeasures may have different impacts than if the CMFs were applied in a multiplicative fashion. In this case, the true impacts of the combined countermeasures may be greater than, less than, or equal to the product of the CMFs. Since the combined effect of multiple dependent CMFs has not been thoroughly studied, it is usually best practice to assume that the combined effect is not as beneficial as would be expected if the countermeasures were independent. A conservative way to treat these dependent countermeasures is to identify a single CMF for application. The CMF selected should be either:

• the most effective CMF (i.e., the CMF with the lower point estimate) if all CMFs are expected to provide safety benefits, or

• the least effective CMF (i.e., the CMF with the highest point estimate) if one or more CMFs are expected to provide an increase in crash frequency.

In this case, the standard error of the selected CMF is used as the error of the combined treatment. This method is conservative because it is the equivalent of a worst-case analysis of the safety effects of the combined countermeasures and should not overestimate the safety benefits of combined countermeasures. If the combination of countermeasures is expected to provide additional benefits beyond the application of a single CMF, a value near the lower bound of the confidence interval for the single select CMF can be selected to account for the additional benefits. Other methods to estimate the combined CMF for multiple dependent countermeasures can be found in Gross et al. (2012).

In cases for which the analyst is unsure whether the countermeasures are independent or dependent, the combined influence of the multiple CMFs should be determined using both methods to provide a range of potential effects. The independent method would provide an upper bound for the expected safety benefits


of the combined countermeasures, while the dependent analysis would provide a lower bound. Engineering judgment can then be used to select the most appropriate value from this range.

An example is used to illustrate how to apply multiple CMFs for countermeasures that influence the same crash types, including how to interpret the results.

Example Problem: Consider a two-lane rural roadway segment in which the crash frequency is expected to be 10 crashes per year. A highway engineer is considering installing edgeline rumble strips and paved shoulders as countermeasures to reduce crash frequency. CMFs are available for both countermeasures: the CMF for edgeline rumble strips (total crashes) is 0.80 with a standard error of 0.08 and the CMF for paved shoulders (total crashes) is 0.58 with a standard error of 0.054. The engineer would like to know how many crashes should be expected if these two countermeasures are applied simultaneously: (1) assuming they are independent countermeasures, and (2) assuming they are dependent countermeasures. If the engineer is not sure of the combined effects, what is the most appropriate estimate to use?

How many crashes should be expected if both countermeasures are applied simultaneously, assuming the countermeasures are independent?

Equation 3 can be used to determine the point estimate for the combination of these countermeasures assuming independence. The point estimate of the combined effect of both countermeasures will be a product of the two CMFs and equal to 0.80 ∗ 0.58 = 0.464. The error associated with this point estimate can be estimated using Equation 4: �(0.802 + 0.082) ∗ (0.582 + 0.0542)− (0.80 ∗ 0.58)2 = 0.064. Therefore, the 95% confidence interval for the combined effect of the two countermeasures is: 0.464 ±1.96 ∗ 0.064, which implies that the estimate of the combined countermeasures lies between 0.339 and 0.589. The estimate of total number crashes per year would then be between 3.39 and 5.89 after installing both countermeasures at the site.

How many crashes should be expected if both countermeasures are applied simultaneously, assuming the countermeasures are dependent?

If these two countermeasures are dependent, the conservative approach would be to apply only the CMF associated with the most effective countermeasure, since both are expected to provide safety benefits. In this case, paved shoulders is the most effective countermeasure, since the point estimate of the CMF of paved shoulders is lower than the point estimate for the CMF of edgeline rumble strips. Therefore, the point estimate applied will be 0.58. The standard error of 0.054 for this point estimate is also used. The 95% confidence interval for this combined treatment, using a conservative approach, is 0.58 ± 1.96 ∗0.054, which implies that the estimate of the combined countermeasures conservatively lies between 0.474 and 0.686. The estimate of total number of crashes per year is between 4.74 and 6.86. This range is higher than the range obtained when assuming the two countermeasures are independent because the independence assumption is generally not conservative.


What is the most appropriate estimate to use?

To determine the most appropriate estimate of crashes after the combined implementation of both countermeasures, the countermeasures being applied must be considered. Both edgeline rumble strips and paved shoulders are typically implemented to prevent run-off-the-road crashes and are likely to have dependent effects. For example, implementing edgeline rumble strips on a roadway segment that already has a paved shoulder might not be as effective as implementing edgeline rumble strips on a roadway segment without a shoulder, since the shoulder would already mitigate some of the run-off-the-road crashes. However, the combined effects of both countermeasures should be more than just paved shoulders alone, because edgeline rumble strips can alert a driver that the driven vehicle is departing the travel lane while the shoulder provides additional space and time for the vehicle to recover. Thus, it might be appropriate to use the conservative approach, but select an estimate of the number of crashes closer to the lower bound to capture the additional benefit of combining the countermeasure. In this case, a value near 5 crashes per year may be appropriate if the combined effects are expected to be significant.

Assessing the Quality of a CMF Only “high-quality” CMFs are included in this guide for application within the Commonwealth of Pennsylvania. The star quality rating system proposed by the FHWA CMF Clearinghouse and documented on its website (http://www.cmfclearinghouse.org/) was used to assess the quality of each of the CMFs identified. This system assigns each CMF with a numerical value on a scale of 1 to 5, where 5 is the most reliable or highest-quality rating. The ratings are determined based on five properties of the CMF and the study used to estimate its value, including the:

• Study design, • Sample size, • Standard error, • Potential bias, and • Data source.

Each of these properties is assigned a point value based on the level of rigor. Table 2 (modified slightly from the CMF Clearinghouse website) provides a guideline for assigning point values for each of these properties. These points are then used to assign each CMF an aggregate score using the following equation:

𝐴𝑔𝑔𝑟𝑒𝑔𝑎𝑡𝑒 𝐶𝑀𝐹 𝑆𝑐𝑜𝑟𝑒= (2 ∗ 𝑆𝑡𝑢𝑑𝑦 𝐷𝑒𝑠𝑖𝑔𝑛 𝑆𝑐𝑜𝑟𝑒) + (2 ∗ 𝑆𝑎𝑚𝑝𝑙𝑒 𝑆𝑖𝑧𝑒 𝑆𝑐𝑜𝑟𝑒) + 𝑆𝑡𝑎𝑛𝑑𝑎𝑟𝑑 𝐸𝑟𝑟𝑜𝑟 𝑆𝑐𝑜𝑟𝑒+ 𝑃𝑜𝑡𝑒𝑛𝑡𝑖𝑎𝑙 𝐵𝑖𝑎𝑠 𝑆𝑐𝑜𝑟𝑒 + 𝐷𝑎𝑡𝑎 𝑆𝑜𝑢𝑟𝑐𝑒 𝑆𝑐𝑜𝑟𝑒

(Equation 5)



Table 2. Guidelines for assigning points in the CMF star quality rating system

Property Excellent (2 points) Fair (1 point) Poor (0 points)

Study Design

Statistically rigorous study design with reference group or randomized experiment and control

Cross sectional study or other coefficient based analysis

Simple before / after study

Sample Size

Large sample, multiple years, diversity of sites

Moderate sample size, limited years, and limited diversity of sites

Limited homogeneous sample

Standard Error

Small (when compared to 1-CMF value)

Relatively large SE, but confidence interval does not include zero

Large SE and confidence interval includes zero

Potential Bias

Controls for all sources of known potential bias

Controls for some sources of potential bias

No consideration of potential bias

Data Source

Diversity in states representing different geographies

Limited to one state, but diversity in geography within state (e.g., CA)

Limited to one jurisdiction in one state

The final star rating is assigned based on the aggregate CMF score using Table 3.

Table 3. CMF score to star rating conversion

Aggregate CMF Score Star Rating 14 (max possible) 5 Stars

11 – 13 4 Stars 7 – 10 3 Stars 3 – 6 2 Stars 1 – 2 1 Star

0 0 Stars

High-quality CMFs were determined to be those having a star rating of 3 or higher. The threshold of 3 stars was selected for the following reasons: it provides a relatively large list of CMFs, since the majority of CMFs in the CMF Clearinghouse are rated 3 stars; it is consistent with the HSM, since the CMFs provided in the HSM are almost all rated 3 stars or higher; and it ensures that any CMF with a poor rating for one or more properties also has other properties with an excellent rating (especially for study design and sample size).

Using the CMF Guide In this guide, CMFs are categorized by the CMF type used in the FHWA CMF Clearinghouse website. This categorization was chosen for consistency so that a user can easily identify additional CMF details using the website (http://www.cmfclearinghouse.org/).



The categories used are:

• Access Management • Advanced Technology and ITS • Alignment • Bicyclists • Delineation • Highway Lighting • Interchange Design • Intersection Geometry • Intersection Traffic Control • On-Street Parking • Pedestrians • Railroad Grade Crossings • Roadside Features • Roadway Features • Shoulder Treatments • Signs • Speed Management • Transit • Work Zones

A separate CMF table is provided for each of the categories listed above; see Tables A through S at the end of this guide. Note that individual countermeasures are not duplicated across tables and an analyst might have to check multiple tables to find a specific countermeasure. For example, CMFs for countermeasures at intersections with rail crossings can be found in both Tables I (Intersection Traffic Control) and L (Railroad Grade Crossings).

Each of these tables contains the following information:

• Description of the highway change or countermeasure, • Conditions for which the CMF is applicable, • Point estimate and standard error of the CMF, • Star quality rating as determined from the FHWA CMF Clearinghouse methodology, and • Location of crash data used to estimate the CMF.

The “Countermeasure” column provides a brief description of the change or countermeasure considered. Most countermeasures contain multiple CMF point estimates and standard errors, each associated with a different set of conditions provided in the “Area Type,” “Severity,” “Crash Type,” “AADT Range,” and “Implementation Notes” columns. A description of common abbreviations used in the CMF tables for Area Type, Severity and Crash Type is provided in Tables 4 through 6. The Implementation Notes column includes additional factors depending on the nature of the countermeasure (e.g., number of lanes


or speed limit). CMFs can only be confidently applied to the set of conditions for which they are associated. Blank cells in Tables A through S for Area Type, Severity, Crash Type, and AADT Range indicate that this information was not specified or readily available. These CMFs should be applied more cautiously than those for which the conditions are provided. CMFs with different conditions than desired might serve as a guide for applying a CMF to the situation of interest. However, an analyst should use conservative and careful engineering judgment when applying these estimates under different conditions.

Table 4. Description of common Area Type abbreviations

Abbreviation Description Urban Urban roadways only Urban/Suburban Urban and suburban roadways only Rural Rural roadways only

Table 5. Description of common Severity abbreviations

Abbreviation Description All All crash severities Fatal Fatal crashes Incapacitating Injury Fatal and serious injury crashes Fatal and Injury Fatal, serious injury, and minor injury crashes Injury Serious injury and minor injury crashes Serious Injury Serious injury crashes Minor Injury Minor injury crashes

Injury and PDO Serious injury, minor injury, and property damage only crashes

Minor and PDO Minor injury and property damage only crashes PDO Property damage only crashes


Table 6. Description of common Crash Type abbreviations

Abbreviation Description All All crash types Angle Angle crashes only Cross median Cross median crashes only Daytime Daytime crashes only Fixed object Fixed object crashes only Head-on Head-on crashes only Intersection Intersection related crashes only Left-turn Left-turn crashes only Motorcycle Motorcycle related crashes only Multiple vehicle Multiple vehicle crashes only Nighttime Nighttime crashes only Non-intersection Non-intersection crashes only Non-summer Non-summer period crashes only Non-winter Non-winter period crashes only Parking related Parking related crashes only Rear-end Rear-end crashes only Right-turn Right-turn crashes only Run-off-road Run-off-road crashes only Shoulder Shoulder related crashes only Sideswipe Sideswipe crashes only Single vehicle Single vehicle crashes only Speed Speed related crashes only Summer Summer period crashes only Truck related Truck related crashes only Vehicle/bicycle Vehicle/bicycle crashes only Vehicle/pedestrian Vehicle/pedestrian crashes only Wet road Wet road crashes only Winter Winter period crashes only

The “CMF” column contains the point estimate and standard error of the CMF. In some cases, multiple CMFs are provided for the same set of conditions. In such cases, the CMF highlighted in green is the most appropriate estimate to use. This value was selected by considering the star rating, point estimate, standard error, and study methodology. The other estimates are still provided to give the user of this guide an indication of the range of potential impacts that this highway change or countermeasure may have. One of these other CMFs may be applied only if sufficient justification is provided for its use.


The “Point Estimate” column generally provides the numerical value of the point estimate of the CMF for that countermeasure. However, in some instances an equation or formula is used to estimate the point estimate of the CMF. The equations are designated in the tables as “EQN X,” and the functional form of the equations are provided in Table T at the end of this guide. The information in Table T provides the relevant variables that should be used to estimate the numerical value of the CMF.

The next column of each table contains a value indicating the quality of the CMF using the star quality rating system developed by the FHWA CMF Clearinghouse. As previously described, only CMFs with a 3-star rating or higher are included in this guide. Of these, CMFs with star quality ratings of 4 and 5 are generally those that were estimated using a better study design, include a larger sample size of sites/crashes, have a lower standard error of the point estimate, have less potential bias in the estimate, and contain data from a wider range of sources. In general, these CMFs should be trusted more than CMFs with star quality ratings of 3.

The final column labeled “State” lists the set of states (when reported) from which crash data were obtained to estimate the CMF. The bolded CMFs in each table represent those for which Pennsylvania crash data were used to estimate the point estimate and standard error of the CMF. These CMFs might be more appropriate for application in Pennsylvania, especially in cases where significant variation exists for multiple CMFs provided for the same set of conditions.

The low-quality CMFs are provided in the same basic format at the conclusion of this report. However, these CMFs are not recommended for use in Pennsylvania due to their low quality.

A series of examples are used to demonstrate how to use this guide.

Example Problem 1: A raised median is being considered on a 4-lane road in a suburban region. What change in property damage only (PDO) crashes are expected after this countermeasure is implemented?

To determine the expected change in crashes, the CMF for this scenario needs to be determined. The countermeasure “Provide a raised median” is included in Table A: Access Management. In this table, nearly 60 CMF estimates are included for this countermeasure. However, the “Area Type” and “Crash Severity” columns can be used to identify only those that influence suburban roadway segments and PDO crashes. This narrows the list of CMFs to 7 values. Since the crash type is not specified in the problem, only the CMFs provided for all crash types should be considered, which further narrows the list to 4 CMFs. Each of these has different implementation conditions under the “Implementation Notes” column. Of these four, only one CMF is applicable to 4-lane roadway segments. This CMF should be used. Therefore, the CMF selected should have a point estimate of 0.742 and standard error of 0.034. The 95% confidence interval is 0.742 ± 1.96 ∗ 0.034, or between 0.675 and 0.809. This suggests a reduction in PDO crashes of between 19.1% and 32.5%.

Example Problem 2: Centerline rumble strips are being considered on a rural roadway segment in Pennsylvania. What is the most appropriate CMF to use in this scenario to estimate the impact on the total number of crashes? Pennsylvania CMF Guide Page 14

The countermeasure “Install centerline rumble strips” is included in Table N: Roadway Features. 32 CMFs are provided for this countermeasure, and 28 of them pertain to rural roadway segments. Since total crashes are of interest, all crash types and crash severities should be considered. This reduces the list to 6 CMFs. However, there are no other differentiating characteristics of these 6 CMF estimates. Since no other information is provided, the most appropriate choice is to select the recommended value that has been highlighted. This CMF has a point estimate of 0.91 and a standard error of 0.02. Since the CMF is also bolded, the data used to estimate the CMF came from Pennsylvania, which further validates this selection.

If the analyst has a strong suspicion that centerline rumble strips would be less effective than average at this particular location, then the following two options are available: the analyst can either elect to use a point estimate closer to the upper bound of the confidence interval provided by the CMF chosen above or choose another CMF with a slightly higher point estimate.

Example Problem 3: A CMF is desired to estimate the effect of increasing the retroreflectivity of white edgelines from 100 to 200 mcd/m2/lux. The effect on all crash types is desired. What is the most appropriate point estimate to use?

The countermeasure “Increase pavement marking retroreflectivity of white edgelines from X to Y mcd/m2/lux” is included in Table E: Delineation. The point estimate is obtained using Equation 5-6 from the set of equations following this table. The equation has the following functional form:

𝐶𝑀𝐹 = 𝑒−0.001(𝑌−𝑋),

where 𝑋 and 𝑌 are the before and after retroreflectivity of the white edgelines in units of mcd/m2/lux. In this particular case, 𝑋 = 100 mcd/m2/lux and 𝑌 = 200 mcd/m2/lux. Therefore, the CMF point estimate is:

𝐶𝑀𝐹 = 𝑒−0.001(200−100) = 0.905.

Unfortunately, standard errors are not available in cases in which equations are used to obtain the point estimate. Therefore, the CMF point estimate of 0.905 should be used with caution, as there is no indication of the level of uncertainty associated with this value.


References 1. Bahar, G., Masliah, M., Wolff, R., and Park, P. (2008) Desktop reference for crash reduction

factors, Federal Highway Administration Report No. FHWA-SA-08-011. 2. FHWA CMF Clearinghouse (2011) Federal Highway Association, US Department of

Transportation, http://www.cmfclearinghouse.org/ 3. FHWA Office of Safety Proven Safety Countermeasures (2012) Federal Highway

Administration, US Department of Transportation, http://safety.fhwa.dot.gov/provencountermeasures/

4. Goodwin, A., Kirley, B., Sandt, L., Hall, W., Thomas, L., O’Brien, N., and Summerlin, D. (2013) Countermeasures that work: A highway safety countermeasures guide for State Highway Safety Offices. Report No. DOT HS 811 727, National Highway Traffic Safety Administration, Washington, DC.

5. Gross, F., Hamidi, A., and Yunk, K. (2012) Issues Related to the Combination of Multiple CMFs. In the Proceedings of the Transportation Research Board 91st Annual Meeting, paper number 12-1652.

6. Harkey, D. L., Srinivasan, R., Zegeer, C., Persaud, B., Lyon, C., Eccles, K., Council, F. and McGee, H. (2005) NCHRP Research Results Digest 299: Crash Reduction Factors for Traffic Engineering and Intelligent Transportation System (ITS) Improvements: State-of-Knowledge Report. Transportation Research Board of the National Academies, Washington, DC.

7. Highway Safety Manual (2010) American Association of State Highway and Transportation Officials, Washington, D.C.

8. Lord, D. (2008) Methodology for estimating the variance and confidence intervals for the estimate of the product of baseline models and AMFs. Accident Analysis and Prevention, Vol. 40 No. 3, pp. 1013-1017.

9. Roadway Department Countermeasures, Federal Highway Administration, US Department of Transportation, http://safety.fhwa.dot.gov/roadway_dept/rdctrm.cfm

10. Toolbox of Countermeasures and Their Potential Effectiveness for Pedestrian Crashes (2008) Federal Highway Administration, US Department of Transportation, http://safety.fhwa.dot.gov/ped_bike/tools_solve/ped_tctpepc/



http://safety.fhwa.dot.gov/provencountermeasures/

http://safety.fhwa.dot.gov/roadway_dept/rdctrm.cfm

http://safety.fhwa.dot.gov/ped_bike/tools_solve/ped_tctpepc/

Table A. Access Management


Value Std. Err

All All 10000 ‐ 55000 0.61 4 UT

Incapacitating injury All 10000 ‐ 55000 0.56 4 UT

Fatal and injury All 0.61 0.06 4

Injury All 0.78 0.02 5

PDO All 1.09 0.01 5

1390 ‐ 51200 0.29 0.184 3 UT

2 lanes, less than 45 mph speed limit 0.86 3 NJ

Angle 1390 ‐ 51200 0.45 0.125 3 UT

10500 ‐ 57000 2, 4, 6 lanes 0.66 0.028 3 FL

26224 ‐ 57000 6 lanes 0.582 0.029 3 FL

35, 40 mph speed limit 0.654 0.086 3 FL

45, 50, 55 mph speed limit 0.695 0.031 3 FL

Angle 10500 ‐ 57000 0.641 0.07 3 FL

Left‐turn 10500 ‐ 57000 0.294 0.035 3 FL

Rear‐end 10500 ‐ 57000 0.776 0.051 3 FL

10500 ‐ 57000 2, 4, 6 lanes 0.659 0.028 3 FL

26224 ‐ 57000 6 lanes 0.58 0.029 3 FL



Angle 10500 ‐ 57000 0.64 0.07 3 FL

Left‐turn 10500 ‐ 57000 0.295 0.035 3 FL

Rear‐end 10500 ‐ 57000 0.777 0.051 3 FL

10500 ‐ 57000 2, 4, 6 lanes 0.742 0.034 3 FL

26224 ‐ 57000 6 lanes 0.684 0.036 3 FL



Angle 10500 ‐ 57000 0.544 0.065 3 FL

Left‐turn 10500 ‐ 57000 0.397 0.058 3 FL

Rear‐end 10500 ‐ 57000 0.896 0.063 3 FL

10500 ‐ 57000 2, 4, 6 lanes 0.697 0.022 3 FL

26224 ‐ 57000 6 lanes 0.628 0.022 3 FL



10500 ‐ 57000 2, 4, 6 lanes 0.595 0.048 3 FL

18340 ‐ 50925 6 lanes 0.732 0.124 3 FL

26224 ‐ 57000 35, 40 mph speed limit 0.558 0.051 3 FL


26224 ‐ 57000 6 lanes 0.564 0.025 3 FL



10500 ‐ 57000 2, 4, 6 lanes 0.329 0.03 3 FL

18340 ‐ 50925 6 lanes 0.664 0.126 3 FL

26224 ‐ 57000 35, 40 mph speed limit 0.262 0.029 3 FL


26224 ‐ 57000 0.859 0.061 3 FL


Other 26224 ‐ 57000 0.827 0.081 3 FL

10500 ‐ 57000 2, 4, 6 lanes 0.83 0.04 3 FL

26224 ‐ 57000 6 lanes 0.742 0.041 3 FL



10500 ‐ 57000 2, 4, 6 lanes 0.661 0.119 3 FL


10500 ‐ 57000 2, 4, 6 lanes 0.83 0.101 3 FL


Vehicle/pedestrian 10500 ‐ 57000 0.711 0.139 3 FL


PDO All 0.82 0.02 5

Right‐turn

Sideswipe

CMFCountermeasures Area Type Crash Severity Crash Type AADT Note

Angle

Daytime

Left‐turn

Nighttime

Rear‐end

Provide a raised median

Urban

All

Urban/Suburban

Fatal and injury

Injury

PDO

All

Rural

StateStar Quality

Rating

All

All

All

All

All


Value Std. Err

CMFCountermeasures Area Type Crash Severity Crash Type AADT Note State

Star Quality

Rating

Angle,Fixed object,Head‐on,Rear‐end,Run

off road,Sideswipe,Single vehicle4883 ‐ 96080 0.77 0.0616 3 NV

Angle 4883 ‐ 96080 0.65 0.0728 3 NV

Rear‐end 4883 ‐ 96080 0.81 0.0684 3 NV

Sideswipe 4883 ‐ 96080 0.79 0.0822 3 NV

Head‐on 4883 ‐ 96080 0.53 0.1473 3 NV

InjuryAngle,Fixed object,Head‐on,Rear‐end,Run


PDOAngle,Fixed object,Head‐on,Rear‐end,Run


Fatal and injury Multiple vehicle 0.96 0.02 5

All Multiple vehicle 0.96 0.02 5

Stop‐controlled 1.05 0.01 5

Signalized 1.03 0.01 5

4‐leg, Stop‐controlled 1.06 0.01 5

3‐leg, Stop‐controlled 1.03 0.01 5

4‐leg, Signalized 1.03 0.18 5

2400 ‐ 119000 Full access control 0.86 0.02 5

1000 ‐ 90000 Partial access control 0.84 0.03 5

4400 ‐ 131000 4 lanes, Full access control 0.89 0.04 5

2600 ‐ 282000 5 lanes or more, Full access control 0.89 0.04 5

1900 ‐ 150000 4 lanes, Partial access control 0.87 0.04 5

All Multiple vehicle 0.91 4 CA,KY,MN













Cross median 2400 ‐ 119000 Full access control 0.54 0.06 5

Cross median 1000 ‐ 90000 Partial access control 0.51 0.08 5

Cross median 4400 ‐ 131000 4 lanes, Full access control 0.64 0.1 5

Cross median 2600 ‐ 282000 5 lanes or more, Full access control 0.63 0.1 5

Cross median 1900 ‐ 150000 4 lanes, Partial access control 0.59 0.1 5








All

Multiple vehicle

Multiple vehicle

Cross median

Cross median

Cross median

Cross median

Cross median

Cross median

Fatal and injury

All

Convert a 10‐ft traversable median to a 50‐ft

traversable median

Rural

Urban

Rural

Urban


traversable median

Replace TWLTL with raised median Urban

Increase intersection median width by 3 ft

increments

Rural

Urban/Suburban


traversable median

Rural

Urban


traversable median

Rural

Urban


traversable median

Rural

Urban


Value Std. Err


Star Quality

Rating























5134 ‐ 153500 Eqn. 1‐ 55 4 CA,WA

Multiple vehicle 5134 ‐ 153500 Eqn. 1‐ 56 4 CA,WA

Fatal and injury 5134 ‐ 153500 Eqn. 1‐ 57 4 CA,WA

All 5700 ‐ 309000 3.629 0.404 3 FL

Rear‐end 5700 ‐ 309000 5.732 0.673 3 FL

Sideswipe 5700 ‐ 309000 4.184 0.434 3 FL

Fatal and injury All 5700 ‐ 309000 3.227 0.329 3 FL

All 5700 ‐ 309000 1.071 0.126 3 FL

Rear‐end 5700 ‐ 309000 1.43 0.222 3 FL

Sideswipe 5700 ‐ 309000 1.151 0.14 3 FL


0 ‐ 34000 4, 6, 8 lanes 0.64 0.39 3

0 ‐ 34000 0.38 0.21 3

0 ‐ 34000 6 lanes 0.69 0.17 3

0 ‐ 34000 4, 6, 8 lanes 0.89 0.37 3

0 ‐ 34000 0.56 0.2 3

0 ‐ 34000 6 lanes 0.95 0.13 3

0 ‐ 34000 4, 6, 8 lanes 0.8 0.28 4

0 ‐ 34000 4, 6, 8 lanes 0.49 0.15 3

0 ‐ 34000 6 lanes 0.86 0.21 3

0 ‐ 34000 4, 6, 8 lanes 0.64 0.25 3

0 ‐ 34000 6 lanes 0.67 0.22 3

0 ‐ 34000 4, 6, 8 lanes 0.84 0.25 3

0 ‐ 34000 6 lanes 0.91 0.05 3

Transit‐related 0.72 0.113 3 notusa

0.96 0.01 3 notusa

0.87 0.02 3 notusa

All 18200 ‐ 86300 0.967 0.0118 3 FL

Related to in‐direct left‐turns 18200 ‐ 86300 0.955 0.013 3 FL

All

AllTransit‐serviced locations

All

All

Angle

Rear‐end

All

All

Restrict left or right‐turns Urban

Increase separation distance between driveway exit

and downstream U‐turn by 10% (m)

Fatal and injury

Replace direct left‐turn with right‐turn/U‐turn

PDO

All

Urban

Decrease freeway ramp spacing from infinity to S

(ft) with or without auxiliary lane

Decrease median width from 64 ft to 22 ft Urban


traversable median

Rural

Urban


traversable median

Rural

Urban


traversable median

Rural

Urban

Decrease median width from 64 ft to 40 ft Urban


traversable median

Rural


Value Std. Err


Star Quality

Rating

All 2 lanes Eqn. 1‐ 1 3 TX

Fatal and injury Eqn. 1‐ 2 3 TX

29320 ‐ 96080 Divided with median Eqn. 1‐ 3 3 NV

4883 ‐ 71280 Divided with TWLTL Eqn. 1‐ 4 3 NV



Fixed object,Run off road,Single vehicle 4883 ‐ 71280 Divided with TWLTL Eqn. 1‐ 7 3 NV



Sideswipe 4883 ‐ 71280 Divided with TWLTL Eqn. 1‐ 10 3 NV





Change in driveway density from 48 to 26‐48

driveways per mileUrban/Suburban Injury All 0.71 0.02 5

Change in driveway density from 26‐48 to 10‐24


Change in driveway density from 10‐24 to <10


8 lanes 1.05 0.02 3 TX

4 lanes 1.047 0.027 3 TX

1.033 0.012 3 TX

1.04 0.016 3 TX

1.023 0.018 3 TX

8 lanes 1.279 0.12 3 TX

4 lanes 1.256 0.164 3 TX

1.174 0.069 3 TX

1.217 0.094 3 TX

1.12 0.098 3 TX

8 lanes 1.636 0.31 3 TX

4 lanes 1.578 0.415 3 TX

1.379 0.1617 3 TN

1.48 0.229 3 TX

1.25 0.22 3 TX

8 lanes Eqn. 1‐ 15 3 TX

4 lanes Eqn. 1‐ 16 3 TX

All Fatal and injury All Eqn. 1‐ 17 3 TX

Increase freeway on‐ramp density from X to Y

ramps per mile (total in both directions) (curve

sections)



ramps per mile (total in both directions) (tangents)All Fatal and injury All Eqn. 1‐ 19 3 TX



Fixed object,Run off road,Single vehicle 4883 ‐ 71280 Divided with TWLTL Eqn. 1‐ 22 3 NV



Sideswipe 29320 ‐ 96080 Divided with median Eqn. 1‐ 25 3 NV


off road,Sideswipe,Single vehicle4883 ‐ 71280 Divided with TWLTL Eqn. 1‐ 26 3 NV

All


off road,Sideswipe,Single vehicle

Rear‐end

All

Fatal and injury All

All


All

Fatal and injury

Fatal and injury

Fatal and injury



All

Angle



Rear‐end

PDO





All

Change in driveway density from X to Y driveways

per mile

Rural

Urban

Increase freeway on‐ramp density from 0 to 1

ramps per mile (total in both directions)

Urban

All



Urban

All



Urban

All



Urban

Change in signal spacing from X 1000's feet to Y

1000's feetUrban


Value Std. Err


Star Quality

Rating



Fixed object,Run off road,Single vehicle 29320 ‐ 96080 Divided with Median Eqn. 1‐ 28 3 NV

Head‐on 4883 ‐ 71280 Divided with TWLTL Eqn. 1‐ 29 3 NV

Rear‐end 4883 ‐ 71280 Divided with TWLTL Eqn. 1‐ 30 3 NV

29320 ‐ 96080 Divided with Median Eqn. 1‐ 31 3 NV





off road,Sideswipe,Single vehicle29320 ‐ 96080 Divided with median Eqn. 1‐ 34 3 NV

Angle 29320 ‐ 96080 Divided with median Eqn. 1‐ 35 3 NV

Head‐on 29320 ‐ 96080 Divided with median Eqn. 1‐ 36 3 NV





Implement home zone design in residential

neighborhoodsAll All

Home zones, or shared spaces, are streets

designed to be shared by vehicles and

pedestrians. Home zones may include:

entrance treatments, shared vehicle and

pedestrian space, traffic calming, on‐street

parking, streetscaping, social space, and

interface between buildings and roads.

0.71 0.13 3

Install wide median (>2 m) on major road of a 4‐leg

signalized intersectionUrban All Motorcycle 1.2 3 notusa

Add markings to the major approach of unsignalized

3‐leg intersection to serve as a medianAll All All 0.7 0.1385 3 FL

Convert an open median to a mixed median on the

major approach to a 3‐leg unsignalized intersectionAll All All 0.95 0.133 3 FL

Convert an open median to an undivided median on

the major approach to an unsignalized 3‐leg

intersection

All All All 0.85 0.083 3 FL

Convert an open median to a closed median on the

major approach to unsignalized 3‐leg intersection All All All 1.02 0.1106 3 FL

Convert an open median to a TWLTL All All 1.45 0.21 3 FL

Convert an open median to a directional median on

the major approach of an unsignalized 3‐leg

intersection

All All All 0.86 0.1297 3 FL

Incapacitating injury All 27000 ‐ 96000 0.76 0.0548 4 FL


Major injury All 27000 ‐ 96000 0.82 0.0632 4 FL

Minor injury All 27000 ‐ 96000 0.82 0.0894 4 FL

PDO All 27000 ‐ 96000 1.13 0.1703 3 FL

All 27000 ‐ 96000 0.93 0.1095 3 FL

Left‐turn 27000 ‐ 96000 0.43 0.0447 3 FL


Minor injury All 45000 ‐ 75000 0.8 0.2236 3 FL

PDO All 45000 ‐ 75000 1.13 0.2324 3 FL

All All 45000 ‐ 75000 0.95 0.2258 3 FL

All Left‐turn 45000 ‐ 75000 0.55 0.1183 3 FL

Change the natural log of the upstream distance to

the nearest signalized intersection from an

unsignalized 3‐leg intersection from X to Y

All All All Eqn. 1‐ 39 3 FL

All

Urban

All

All

Sideswipe

Change in unsignalized cross roads from X to Y

unsignalized cross roads per mileUrban

Change in median opening density from X to Y

median openings

Convert an open median to a directional median Urban/Suburban

Convert an open median to a left‐in only median Urban/Suburban


Value Std. Err


Star Quality

Rating

Change the natural log of the downstream distance

to the nearest signalized intersection for an



Change the natural log of the downstream distance

to the nearest signalized intersection for an



Change the natural log of the distance between two

consecutive unsignalized intersectionAll All All Eqn. 1‐ 42 3 FL

All Fatal All 1094 ‐ 213544 Compared to no access points 1.77 0.78 3 notusa

Injury All 1094 ‐ 213544 Compared to no access points 1.02 1.91 3 notusa

Presence of parking entrances Urban/Suburban All Vehicle/bicycle 1.01 3 notusa

Presence of median Urban/Suburban All Vehicle/bicycle 0.97 3 notusa

Absence of access points Urban All All 0.56 0.27 3 notusa

Angle,Cross median,Fixed object,Head‐

on,Left‐turn,Non‐intersection,Parking

related,Rear‐end,Rear to rear,Right‐turn,Run

off road,Sideswipe,Single vehicle,Truck

related

Census block group area Eqn. 1‐ 43 3 TX

Angle,Cross median,Head‐on,Left‐turn,Rear‐

end,Rear to rear,Right‐turn,SideswipeCensus block group area Eqn. 1‐ 44 3 TX

Fixed object Census block group area Eqn. 1‐ 45 3 TX

Parking related Census block group area Eqn. 1‐ 46 3 TX

Vehicle/bicycle Census block group area Eqn. 1‐ 47 3 TX

Vehicle/pedestrian Census block group area Eqn. 1‐ 48 3 TX

Angle,Cross median,Fixed object,Head‐

on,Left‐turn,Non‐intersection,Parking

related,Rear‐end,Rear to rear,Right‐turn,Run

off road,Sideswipe,Single vehicle,Truck

related

Census block group area Eqn. 1‐ 49 3 TX

Angle,Cross median,Head‐on,Left‐turn,Rear‐

end,Rear to rear,Right‐turn,SideswipeCensus block group area Eqn. 1‐ 50 3 TX

Fixed object Census block group area Eqn. 1‐ 51 3 TX

Parking related Census block group area Eqn. 1‐ 52 3 TX

Vehicle/bicycle Census block group area Eqn. 1‐ 53 3 TX

Vehicle/pedestrian Census block group area Eqn. 1‐ 54 3 TX

Install median on the minor approach of an

unsignalized 3‐leg intersectionAll All All 0.82 0.0903 3 FL

Convert a 3‐leg unsignalized intersection at a

driveway to a regular 3‐leg unsignalized intersectionAll All All 1.41 0.1095 3 FL

Add Two‐Way‐Left‐Turn‐Lane (TWLTL) to the major

approach of an unsignalized 3‐leg intersectionAll All All 0.69 0.0894 3 FL

Add Two‐Way‐Left‐Turn‐Lane (TWLTL) to the major

approach of an unsignalized 4‐leg intersectionAll All All 0.66 3 FL

All Rear‐end 0.27 3 TX

Fatal and injury All 0.43 3 TX

Minor injury All 0.32 3 TX

All 0.46 3 TX

All

All

Convert frontage road from two‐way operation to

one‐way operation

Change number of 4‐leg intersections from X to Y Urban

Presence of grade‐separated interchange

Change number of 3‐leg intersections from X to Y Urban


Table B. Advanced Technology and ITS


Value Std. Err

Fatal Red light running crashes 0.76 4

CA,MD,AZ,IL,TX,

OR,NC,OH,DC,A

K,VA,CO,AL,ID,M

A,NY,MI,IN

Angle,Left‐turn 0.84 0.07 4

Rear‐end 1.24 0.14 4

0.6 3 IA

3‐leg intersection, Camera on major road 0.45 3 notusa

0.75 0.03 5

0.67 0.08 4

1.15 0.04 5

1.45 0.11 4

1.18 0.03 5

Other 0.74 0.03 5

4‐leg intersection, Camera on major road 0.63 3 notusa

4‐leg intersection, Camera on minor road 0.75 3 notusa

0.9 3 TX

0.76 3 TX

0.73 3 TX

0.71 3 TX

0.72 3 TX

0.7 3 TX

0.84 3 TX

0.76 3 TX

0.74 3 TX

0.61 3 TX

0.57 3 TX

0.69 3 TX

0.78 3 TX

0.68 3 TX

2.69 3 TX

2.06 3 TX

0.77 3 TX

0.8 4 IA

1.15 0.1046 3

0.54 0.17 4

1.15 0.1046 3

0.1 0.1276 3

0.54 4 notusa

1.43 0.1276 4

1.15 4 notusa

Fatal and injury Rear‐end 1.13 0.1352 3

Injury Angle 0.57 0.031 3

All Rear‐end 1.46 0.13 3

Angle 0.75 0.028 3

Rear‐end 1.15 0.031 3

Injury Rear‐end 1.24 0.13 3

All All 0.92 0.06 3 NC

Fatal and injury All 0.9 0.12 3 NC

PDO All 0.91 0.11 3 NC

All All Compared to before enforcement 0.81 0.05 4 NC

Fatal and injury All Compared to before enforcement 0.83 0.11 3 NC

PDO Nighttime Compared to before enforcement 0.79 0.09 4 NC

All All Compared to after enforcement 0.97 0.04 3 NC

Fatal and injury All Compared to after enforcement 0.98 0.07 3 NC

PDO All Compared to after enforcement 0.96 0.05 3 NC

Install red‐light cameras with warning signs at some

locations

Media coverage of automated speed enforcement

cameras

Removal of automated speed enforcement cameras

Crash Type AADT Note

Install red‐light cameras with warning signs at all

camera locations

Install red‐light cameras at intersections

Urban

Angle

Rear‐end

All

Countermeasures State

All

All

Angle

Angle

Rear‐end

Star Quality

Rating

All

Motorcycle

Rear‐end

CMFArea Type Crash Severity

Injury

All

All

All

All


Value Std. ErrCrash Type AADT NoteCountermeasures State

Star Quality

Rating

CMFArea Type Crash Severity

All Fatal and injury All 0.83 0.01 5

0.12 0.09 3 AZ

0.46 0.07 4 AZ

Single vehicle 0.37 0.09 4 AZ

Sideswipe 0.52 0.16 3 AZ

Rear‐end 0.74 0.18 3 AZ


0.14 0.13 3 AZ

0.52 0.14 3 AZ



Rear‐end 0.77 0.3 3 AZ

0.82 0.11 3 NC

0.1 0.1 3 AZ

0.44 0.08 4 AZ



Rear‐end 0.69 0.2 3 AZ

Urban/suburban All All 0.84 0.07 4 NC

All 23000 ‐ 42000 Average speed determned over long distance 0.69 0.04 4 notusa

Run‐off‐road 23000 ‐ 42000 Average speed determned over long distance 0.82 0.08 4 notusa

Rear‐end 23000 ‐ 42000 Average speed determned over long distance 0.86 0.1 4 notusa

Sideswipe 23000 ‐ 42000 Average speed determned over long distance 0.52 0.08 4 notusa

Daytime 23000 ‐ 42000 Average speed determned over long distance 0.74 0.05 4 notusa

Nighttime 23000 ‐ 42000 Average speed determned over long distance 0.62 0.05 4 notusa

Dry weather 23000 ‐ 42000 Average speed determned over long distance 0.69 0.04 4 notusa

Wet road 23000 ‐ 42000 Average speed determned over long distance 0.69 0.12 4 notusa

23000 ‐ 42000 Average speed determned over long distance 0.62 0.05 4 notusa

Incapacitating injury All 23000 ‐ 42000 Average speed determned over long distance 0.44 0.07 4 notusa

Minor and PDO All 23000 ‐ 42000 Average speed determned over long distance 0.73 0.04 4 notusa

Install automated section speed enforcement

system on tangentsAll All 23000 ‐ 42000 Average speed determned over long distance 0.72 0.04 4 notusa


system on curvesAll All 23000 ‐ 42000 Average speed determned over long distance 0.57 0.08 4 notusa

Temporal effects of automated section speed

enforcement system ‐ 6 monthsAll All 23000 ‐ 42000 Average speed determned over long distance 0.61 0.07 3 notusa









PDO Speed related 0.87 4 notusa

Injury Speed related 0.76 0.1059 4 notusa

Fatal and injury All 1.09 0.14 4 notusa

Incapacitating injury All 1.2 0.29 4 notusa

All All Noticeable visual presence/media coverage 0.91 0.041 3 NC

Install changeable crash ahead warning signs Urban Injury All 0.56 0.17 4

Injury Rear‐end 0.84 0.1 3

PDO Rear‐end 1.16 0.15 3

Convert existing barrier tollbooths to open road

tolling (ORT) facility0.76 0.024 4 NJ

Install ramp meter All All 53500 ‐ 204000 0.64 0.07 3 CA

All

All

Injury

Rural

Install automated speed camera at signalized

intersection

Implement mobile speed cameras


system

Install changeable "Queue Ahead" warning signs

All

PDO

Urban

All

All


Table C. Alignment


Value Std. Err

PDO Run‐off‐road 1.04 0.01 5

Fatal and injury Run‐off‐road 1.06 0.01 5

All Run‐off‐road 1.05 0.01 5

Rural All Truck related 1.05 0.008 3 OH

Increase in horizontal curvature by two degrees Rural All Truck related 1.11 0.017 3 OH

Increase in horizontal curvature by three degrees Rural All Truck related 1.16 0.027 3 OH

Increase in horizontal curvature by four degrees Rural All Truck related 1.23 0.039 3 OH

Increase in horizontal curvature by five degrees Rural All Truck related 1.29 0.051 3 OH

All Truck related Eqn. 3‐ 1 3 OH

Fatal and injury All Eqn. 3‐ 2 3 TX

All All 6 ‐ 98395 Eqn. 3‐ 3 3 notusa

All Fatal and injury All 1.73 0.286 3 TX

Urban Fatal and injury All 1.83 0.66 3 TX

All Fatal and injury All 2.99 1 3 TX


All Fatal and injury All 5.18 2.66 3 TX



Urban Fatal and injury All Eqn. 3‐ 6 3 TX

Change the number of horizontal curves per mile

from X to YAll All 3923 ‐ 27149 Eqn. 3‐ 7 3 notusa

Change the horizontal curve radius from greater

than 1500m to less than or equal to 600mRural Fatal and injury Run‐off‐road 1200 ‐ 2400 2.44 3 notusa

Change the horizontal curve radius from greater

than 1500m to between 600m and 1500mRural Fatal and injury Run‐off‐road 1200 ‐ 2400 1.42 3 notusa

Increase in horizontal curve radius from X to Y feet

(curves)Rural Fatal and injury All Eqn. 3‐ 23 3 TX

Fatal and injury All 169 ‐ 26088 Eqn. 3‐ 9 3 WA

PDO All 169 ‐ 26088 Eqn. 3‐ 10 3 WA


PDO All 169 ‐ 26088 Eqn. 3‐ 12 3 WA

Change maximum gradient from X to Y All All 6 ‐ 98395 Eqn. 3‐ 8 3 notusa

Change grade from positive or zero to negative Rural Fatal and injury Run‐off‐road 1200 ‐ 2400 1.3 3 notusa

Increase vertical grade by 1% Rural All Run‐off‐road,Single vehicle 1.04 0.02 3

Flatten crest vertical curve All Fatal and injury All 0.49 0.19 3 OH


PDO All 175 ‐ 26088 Eqn. 3‐ 14 3 WA

Fatal and injury All 169 ‐ 26088 1.00 3 WA

PDO All 169 ‐ 26088 1.00 3 WA


PDO All 169 ‐ 19373 Eqn. 3‐ 16 3 WA


PDO All 175 ‐ 26088 Eqn. 3‐ 18 3 WA


PDO All 202 ‐ 20931 Eqn. 3‐ 20 3 WA


PDO All 175 ‐ 21825 1.00 3 WA


PDO All 175 ‐ 21825 Eqn. 3‐ 22 3 WA


PDO All 169 ‐ 23334 1.00 3 WA

Urban/suburban

Rural

Rural

NoteCMF

Rural

Rural

Rural

Rural

Rural

Rural

Rural

Rural

Rural

Tangenets at type 1 sag vertical curves

Horizontal curves on type 2 crest vertical curves

Tangents at type 2 crest vertival curves

Horizontal curves on type 2 sag vertical curves

Tangents at type 2 sag vertical curves

Horizontal curves on type 1 sag vertical curves

Increase in horizontal curvature by one degree

Increase in horizontal curvature from X to Y degrees

Increase degree of curve on freeways from 0 to 5



Increase degree of curve on freeways from X to Y

Horizontal curves on straight grade

Tangents at non‐level grade

Horizontal curves on type 1 crest vertical curves

Tangents at type 1 crest vertival curves

StateCountermeasures Area Type Crash Severity Crash Type AADTStar Quality

Rating


Table D. Bicyclists


Value Std. Err

5000 ‐ 28000 Intersections and segments 1.1 0.064 3 notusa

Intersections 1.18 0.036 3 notusa

5000 ‐ 28000 Segments 0.9 0.092 3 notusa

Rear‐end 5000 ‐ 28000 0.93 0.087 3 notusa

Angle 0.99 0.061 3 notusa

5000 ‐ 28000 Ped from right 1.13 0.099 3 notusa

5000 ‐ 28000 Bike with ped from right 1.8 0.301 3 notusa

Fixed object 5000 ‐ 28000 Parked vehicle 0.79 0.089 3 notusa

1.12 0.066 3 notusa

Left‐turn vehicle 1.09 0.143 3 notusa

Rear‐end 5000 ‐ 28000 1.01 0.066 3 notusa

2.4 0.235 3 notusa

1.7 0.347 3 notusa

5000 ‐ 28000 0.97 0.115 3 notusa

5000 ‐ 28000 0.92 0.122 3 notusa

5000 ‐ 28000 0.37 0.061 3 notusa

2.29 0.449 3 notusa

Left‐turn vehicle with bike 1.48 0.27 3 notusa

Left‐turn vehicle with ped 1.01 0.219 3 notusa

5000 ‐ 28000 Vehicle with ped from right 0.9 0.043 3 notusa

5000 ‐ 28000 Entering or exiting bus passenger 6.19 3.145 3 notusa

Fatal and injury All 5000 ‐ 28000 1.12 0.054 3 notusa

PDO All 5000 ‐ 28000 1.06 0.077 3 notusa

Incapacitating injury All 5000 ‐ 28000 1.1 0.061 3 notusa

5000 ‐ 28000 1.19 0.092 3 notusa

5000 ‐ 28000 Intersections 1.3 0.128 3 notusa

5000 ‐ 28000 Segments 1.07 0.13 3 notusa

5000 ‐ 28000 1.1 0.077 3 notusa

5000 ‐ 28000 Intersection 1.24 0.105 3 notusa

5000 ‐ 28000 Bicycle and moped riders, Segments 0.87 0.107 3 notusa

5000 ‐ 28000 1.04 0.171 3 notusa



5000 ‐ 28000 Segments 0.96 0.074 3 notusa

Minor injury All 5000 ‐ 28000 1.08 0.145 3 notusa

Urban/suburban All Vehicle/pedestrian 1.75 0.498 3 notusa

5000 ‐ 28000 All 1.05 0.084 3 notusa

Intersections 1.00 0.087 3 notusa

Segments 1.057 0.053 3 NY

Intersections 0.944 0.101 3 NY

0.44 0.128 3 NY


1.509 0.583 3 NY


0.855 0.21 3 NY


5000 ‐ 28000 1.14 0.171 3 notusa

5000 ‐ 28000 Segments 1.15 0.166 3 notusa

Segments 0.946 0.114 3 NY


PDO All 5000 ‐ 28000 1.01 0.094 3 notusa

Urban/suburban All Vehicle/bicycle 0.55 0.167 3 notusa

Install bicycle tracks (2‐2.5 m wide)

Install bicycle lanes (1.5‐2 m wide)

Urban Fatal and injury

All

Vehicle/bicycle

Vehicle/pedestrian

All

Fatal and injury

Urban

All

Multiple vehicle

Vehicle/bicycle

Vehicle/pedestrian

All

StateCMF Star Quality

RatingCountermeasures Area Type Crash Severity Crash Type NoteAADT

All

Vehicle/bicycle

Single vehicle

Right‐turn

Left‐turn

Vehicle/pedestrian

All

Bicycle/pedestrian


Value Std. ErrState

CMF Star Quality

RatingCountermeasures Area Type Crash Severity Crash Type NoteAADT

Intersections, with or without parking between

the bicycle lane and traffic0.26 3 notusa

Segments 0.27 3 notusa

Intersections, with parking between the bicycle

lane and traffic0.41 3 notusa

Segments 0.41 3 notusa

Install bicycle boulevard Urban/suburban All Vehicle/bicycle 0.37 0.052 3 CA

Replacement of traditional intersection with

roundabout with cycle lanesUrban All Vehicle/bicycle 1.93 0.334 3 notusa


roundabout with separated cycle pathUrban All Vehicle/bicycle 0.83 0.171 3 notusa


roundabout with a grade separated cycle pathUrban All Vehicle/bicycle 0.56 0.691 3 notusa

Installation of red color and high quality markings

for bicycle crossings with cyclist priority at

intersections


Installation of raised bicycle crossing or other speed

reducing measure for vehicles entering or leaving

the side road


Vehicle/bicycleInjuryUrbanInstall cycle‐tracks, bicycle lanes or on‐street cycling


Table E. Delineation


Value Std. Err

0 ‐ 20000 1.13 0.16 3

20001 ‐ 60000 0.94 0.25 3

> 60000 0.67 0.25 3

0 ‐ 5000 1.16 0.03 5

5001 ‐ 15000 0.99 0.06 3

15001 ‐ 20000 0.76 0.08 4

0 ‐ 5000 1.43 0.1 4

5001 ‐ 15000 1.26 0.11 4

15001 ‐ 20000 1.03 0.13 3

All intersections 0.69 0.14 4

All‐way stop controlled intersections 0.44 0.16 4

One‐way or two‐way stop controlled

intersections0.87 0.22 3

3‐leg intersections 0.4 0.2 4


Angle 1.04 0.33 3

Rear‐end 0.71 0.32 3

All intersections 0.78 0.22 3

AWSC 0.58 0.27 3

OWSC/TWSC 0.92 0.32 3



Increase pavement marking retroreflectivity from X

to Y mcd/m^2/luxRural All

Cross median,Fixed object,Frontal and

opposing direction sideswipe,Head‐

on,Nighttime,Run‐off‐road,Sideswipe,Single

vehicle

Eqn. 5‐1 3 IA

2752 ‐ 47572 2 lanes Eqn. 5‐2 3 NC

2752 ‐ 47572 3 lanes Eqn. 5‐3 3 NC

Increase pavement marking retroreflectivity of

white skiplines from X to Y mcd/m^2/luxAll Nighttime target crashes 2752 ‐ 47572 Eqn. 5‐4 3 NC


yellow centerlines from X to Y mcd/m^2/luxAll Nighttime target crashes 2752 ‐ 47572 Eqn. 5‐5 3 NC


yellow edgelines from X to Y mcd/m^2/luxAll Nighttime target crashes 2752 ‐ 47572 Eqn. 5‐6 3 NC

Incapacitating injury All 2 lanes, undivided 0.53 0.167 3 MO

Fatal and injury All 2 lanes, undivided 0.62 0.095 4 MO

20000 ‐ 60000 0.81 0.07 3 LA

> 60000 0.87 0.06 3 LA

20000 ‐ 60000 0.78 0.09 3 LA

> 60000 0.78 0.06 3 LA


PDO All 1.05 0.07 3


PDO All 1.01 0.05 3

Add lane lines on multilane roadway segments Urban All All 0.82 0.39 3

Install distance markers (angle symbols) on roadway

segmentsInjury All 0.44 0.26 3

Placing edgelines and background/ directional

markings on horizontal curvesRural Injury Run‐off‐road 0.81 0.31 3

Place centerline markings

Install snowplowable, permanent raised pavement

markers


markers (Radius greater than 1640 ft)


markers (Radius less than or equal to 1640 ft)

Provide "Stop Ahead" pavement markings

Nighttime

Nighttime

Rural

Rural

Rural

All

All

All

Rural

All

Injury

Install raised pavement markers with restriping

(center and edgelines)

Resurface and install wider pavement markings (4

to 6 in) and both edgeline and shoulder rumble

strips

Install raised pavement markers


white edgelines from X to Y mcd/m^2/lux

NoteCMF Star Quality

Rating

Nighttime target crashes

Rural

Countermeasures Area Type Crash Severity Crash Type AADT

Install post‐mounted delineators

Nighttime

All

All

Rural

State

Rural All All

Rural All All

Rural

All


Value Std. ErrNote

CMF Star Quality

RatingCountermeasures Area Type Crash Severity Crash Type AADT State

Lane widths 9‐11 ft, Shoulder widths < 5 ft 0.741 0.024 3 TX

Lane widths 9 ft, Shoulder widths < 5 ft 0.671 0.063 3 TX

Urban All Run‐off‐road 0.89 0.031 3 TX

All 0.939 0.027 3 TX

Run‐off‐road 0.866 0.035 3 TX

All 0.921 0.019 3 TX

Lane widths 9‐11 ft, Shoulder widths < 5 ft 0.888 0.023 3 TX

Lane widths 9 ft, Shoulder widths < 5 ft 0.868 0.065 3 TX


PDO All 0.97 0.11 3


All All 0.87 0.14 3

Install edgelines, centerlines, and post‐mounted

delineatorsAll Injury All 0.55 0.11 4

All 0.699 0.046 3 IL

Daytime 0.709 0.056 3 IL

Fixed object 0.705 0.071 3 IL

Nighttime 0.701 0.078 3 IL

Nighttime,Single vehicle 0.705 0.086 3 IL

Nighttime,Wet road 0.643 0.181 3 IL

Other 0.759 0.096 3 IL

Single vehicle 0.63 0.053 3 IL

Single vehicle,Wet road 0.672 0.124 3 IL

Wet road 0.653 0.114 3 IL

All 0.623 0.061 3 IL

Daytime 0.64 0.077 3 IL

Nighttime 0.658 0.106 3 IL

Single vehicle 0.578 0.07 3 IL

Nighttime,Single vehicle 0.637 0.115 3 IL

PDO All 0.761 0.063 3 IL

0.825 0.028 4 KS

0.806 0.045 3 MI

Daytime 0.714 0.043 4 KS

Fixed object 0.81 0.066 4 KS

0.962 0.043 4 KS

0.812 0.059 3 MI

0.816 0.084 4 KS

0.82 0.061 3 MI

0.757 0.147 4 KS

0.208 0.074 3 MI

0.73 0.048 4 KS

0.813 0.047 3 MI

Single vehicle,Wet road 0.341 0.073 3 MI

0.771 0.106 4 KS

0.374 0.073 3 MI

All 0.635 0.052 4 KS

Nighttime 0.873 0.107 4 KS

Single vehicle 0.632 0.061 4 KS

Nighttime,Single vehicle 0.813 0.121 4 KS

0.585 0.066 4 KS

0.77 0.13 3 MI

0.877 0.032 4 KS

0.804 0.047 3 MI

Install edgelines (curves)

Install edgelines (tangent)

Install edgelines (tangents and curves)

Place standard edgeline marking (4‐6 in)

Install edgelines and centerlines Rural

Install wider edgelines (4 in to 6 in)

Install wider edgelines (4 in to 5 in)

Wet road

All

Nighttime

Nighttime,Single vehicle

Nighttime,Wet road

Single vehicle

Daytime

All

Run‐off‐road

All

Rural

All

Fatal and injury

Rural

All

Fatal and injury

PDO

Rural All All

Rural

Rural

Rural

All


Value Std. ErrNote

CMF Star Quality

RatingCountermeasures Area Type Crash Severity Crash Type AADT State

Injury 1.05 0.08 3

PDO 0.99 0.15 3

Install wider pavement markings without

resurfacingRural Fatal and injury All 0.78 0.081 4 MO

Divided median, Principal arterial other

Freeways and expressways0.79 0.06 4 MO

Divided median 0.66 0.097 4 MO

Undivided 0.54 0.156 3 MO

Principal arterial other freeways and

expressways0.91 0.037 4 MO

0.75 0.055 4 MO

Incapacitating injury All 0.62 0.142 4 MO



0.92 0.022 4 MO



0.76 0.065 4 MO



0.74 0.035 4 MO



0.86 0.048 4 MO



0.51 0.183 3 MO



0.75 0.123 4 MO

Urban Fatal and injury All 0.8 0.043 4 MO

All

Fatal and injury

Install wider edgelines (8 in)


to 6 in)


to 6 in) and edgeline rumble strips


to 6 in) and shoulder rumble strips

Rural

Rural All

All

All

Incapacitating injury

Fatal and injury


Fatal and injury

Fatal and injury

All


Fatal and injury

Urban

Rural

Urban

Rural

All

All

All

All


Table F. Highway Lighting


Value Std. Err

All 0.31 0.36 3

Nighttime 0.51 0.0459 3 notusa

All 0.73 0.12 4

0.54 0.0204 3 notusa

0.5 0.01531 3 notusa

0.69 0.0255 3 notusa

PDO All 0.68 0.26 3

All 0.8 0.12 3

All,Nighttime 0.46 0.0102 3 notusa

Dry weather,Nighttime 0.44 0.01276 3 notusa

Fixed object,Nighttime 0.46 0.02296 3 notusa

Nighttime,Rear‐end 0.49 0.02041 3 notusa

Nighttime,Wet road 0.54 0.01786 3 notusa


PDO All 0.84 0.08 4

PDO All 0.69 0.36 3

Fatal All All 0.31 0.36 3

Injury Nighttime 0.72 0.06 4

PDO Nighttime 0.83 0.07 4

All Daytime 40 ‐ 77430 1.05 0.03 3 MN

40 ‐ 77430 0.881 0.054 3 MN

40 ‐ 77430 0.92 0.035 3 MN

Angle 420 ‐ 15200 0.67 0.12 3 GA

Daytime 40 ‐ 77430 1.09 0.06 3 MN

Nighttime 40 ‐ 77430 1.07 0.074 3 MN

Vehicle/pedestrian 420 ‐ 15200 0.56 0.14 3 GA

40 ‐ 77430 Signalized intersection 1.03 0.1 3 MN

40 ‐ 77430 Signalized intersection 1.05 0.053 3 MN

40 ‐ 77430 Stop‐controlled intersection 0.97 0.15 3 MN

40 ‐ 77430 Stop‐controlled intersection 0.91 0.07 3 MN

0.934 0.055 3 MN

0.953 0.023 3 MN

1.032 0.044 3 MN

1.028 0.018 3 MN

All 0.23 0.28 3

Vehicle/pedestrian 0.19 0.28 3

All 0.5 0.21 3

Nighttime 0.62 0.13 4


Nighttime,Vehicle/pedestrian 0.58 0.18 4

0.69 0.36 3

0.52 0.21 3

Install lighting (interchanges) All All All 0.5 0.166 3 OH

Daytime 0.984 0.029 3 OR

Nighttime 1.035 0.047 3 OR

Day time 0.913 0.042 4 OR

Night time 0.886 0.06 3 OR

All All 0.905 0.084 3 OR

Injury All 0.766 0.103 3 OR

Daytime 1.036 0.113 3 OR

Nighttime 0.648 0.109 3 OR

Injury Nighttime 0.6 0.141 3 OR

AADT

Daytime

Nighttime

Crash Type

Nighttime

Daytime

Nightime

Fatal

Injury

PDO All

AllAll Nighttime

Urban/suburban All

Countermeasures Area Type Crash Severity

Fatal

Rural Injury

AllInjury

Partial plus to partial interchange lighting

Install lighting

Install lighting (highway)

Install lighting (intersection)

Full to partial interchange lighting

Full lineal to no or partial lineal lighting

Suburban

All

Injury

All

State

Rural All

Urban

All

Suburban

Suburban


Rating

All


Table G. Interchange Design


Value Std. Err

4‐leg intersection 0.58 0.1 4


3‐leg, 4‐leg intersection 0.73 0.08 4


3‐leg, 4‐leg intersection 0.72 0.11 4

PDO All 0.64 0.14 4

0.93 0.09 3

0.62 0.23 3

0.98 0.17 3

0.91 0.16 3

0.89 0.12 3

1.43 0.09 4

0.9 0.1 3

Provide tight‐urban‐diamond interchange (TUDI) All All 1.02 0.13 3

Design diamond, trumpet, or cloverleaf interchange

with crossroad above freewayAll All 0.96 0.1 3

Extend acceleration lane by approx. 98 ft (30 m) All All 0.89 0.05 5

Extend deceleration lane by approx. 100 ft All All 0.93 0.06 3

Extend deceleration lane from 101‐200 ft. to 601‐

700 ft.All All 0.064 0.014 3 FL

Extend deceleration lane from 201‐300 ft. to 601‐

700 ft.All All 0.155 0.025 3 FL

Provide long ramp instead of shortramp All All 0.62 0.1 4

Provide straight ramp instead of cloverleaf ramp All All 0.55 0.2 4

Provide cloverleaf ramp instead of long ramp All All 0.77 0.2 3

Provide short ramp instead of directional loop ramp All All 0.7 0.2 3

Single‐lane exit ramp without taper compared to

with taper (right ramp only)All All 1.128 0.1136 3 FL

All All 28500 ‐ 282000 2.13 0.49 3 FL


Left side off ramp 1.49 0.2628 3 FL

One lane‐unbalanced freeway exit ramp vs. one

lane‐balanced freeway exit rampAll All 18800 ‐ 291000 1.43 0.1 3 FL

Change length of deceleration lane on one‐lane

freeway exit ramp from X to Y milesAll All 18800 ‐ 291000 Eqn. 7‐1 3 FL

Two lane‐unbalanced freeway exit ramp vs. two

lane‐balanced freeway exit rampAll All 18800 ‐ 291000 1.23 0.11 3 FL

Unbalanced freeway exit ramp vs. balanced freeway

exit rampIncapacitating injury All 18800 ‐ 291000 0.98 0.11 3 FL

18800 ‐ 291000 Eqn. 7‐2 3 FL

18800 ‐ 291000 Eqn. 7‐3 3 FL

Change number of lanes on freeway exit ramp from

X to Y (one‐lane freeway)All All 18800 ‐ 291000 Eqn. 7‐4 3 FL


X to Y (one‐lane exit)All All 18800 ‐ 291000 Eqn. 7‐5 3 FL


X to Y (two‐lane exit)All All 18800 ‐ 291000 Eqn. 7‐6 3 FL

Divided vs. undivided cross road at diamond

interchange rampsAll All 0.53 3 WI

Change number of lanes on cross road at diamond

interchange ramp from X to YAll All Eqn. 7‐7 3 WI

All

Injury

All

All


Rating

Truck related

Incapacitating injury All

State

Convert at‐grade intersection into grade‐separated

interchange

Provide diamond interchange

Single‐lane entrance ramp and two‐lane exit ramp

with continuous auxiliary lane vs. single‐lane


X to Y


All

All


All Eqn. 7‐8 3 WI

Angle Eqn. 7‐9 3 WI

Rear‐end Eqn. 7‐10 3 WI

Convert a Type I exit ramp to a Type II exit ramp* All Truck related 1.21 0.1 3 FL

Convert a Type I exit ramp to a Type III exit ramp* All Truck related 0.79 0.07 3 FL

Convert a Type I exit ramp to a Type IV exit ramp* All Truck related 1 0.15 3 FL

Convert a Type III exit ramp to a Type IV exit ramp* All Truck related 1.26 3 FL

All 0.8 3 WA

Single vehicle 0.8 3 WA

Angle,Rear‐end,Sideswipe 0.76 3 WA

Fatal and injury All 0.77 3 WA

Modify two‐lane‐change to one‐lane‐change

merge/diverge areaAll All 0.68 0.04 5

Closely spaced single‐lane entrance and exit ramp

vs. single‐lane entrance and exit ramps with

continuous auxiliary lane

All All 28500 ‐ 282000 1.46 0.31 3 FL

Two lane‐unbalanced freeway exit ramp vs. two

lane‐balanced freeway exit rampIncapacitating injury All 18800 ‐ 291000 0.97 0.21 3 FL

All

Type I is a full width parallel from tangent that

leads to either a tangent or flat exiting curve

which includes a decelerating taper. The

horizontal and vertical alignment of type I exit

ramps were based on the selected design

speed equal or less than the intersecting

roadways. Type II is when the outer lane

becomes a drop lane at the exit gore forming a

lane reduction. A paved and striped area

beyond the theoretical gore were present at

this type of exit ramps to provide a maneuver

and recovery area. Type III includes two exit

lanes while a large percentage of traffic

volume on the freeway beyond the painted

nose would leave at this particular exit. An

auxiliary lane to develop the full capacity of

two lane exit was developed for 1500 feet.

Type IV is used where one of the through

lanes, the outer lane, is reduced and another

full width parallel from tangent lane developed

with a taper is also forced to exit.

Provide an auxiliary lane between an entrance ramp

and exit ramp

Change spacing distance between two ramp

terminals at diamond interchange from X to Y feet

All


Table H. Intersection Geometry


Value Std. Err

All 2.11 3 NC

Angle,Right‐turn 3.66 3 NC

Rear‐end 2.93 3 NC

Left‐turn 0.44 3 NC

Fatal and injury All 2.09 3 NC


0.84 0.39 3

0.74 0.22 3

Provide a channelized left‐turn lane on both major‐

and minor‐road approachesRural Injury All 0.73 0.23 3

All All 0.61 0.07 3 FL





1500 ‐ 40600 Stop‐controlled, 3‐leg intersection 0.67 0.15 4

1500 ‐ 40600 Stop‐controlled, 4‐leg intersection 0.73 0.04 5

7200 ‐ 55100 Signalized intersection 0.9 0.1 3

4600 ‐ 40300 Signalized intersection 0.76 0.03 5

Motorcycle Signalized, 4‐leg intersection 1.23 3 notusa

Motorcycle Signalized, 3‐leg intersection 1.4 3 notusa

1500 ‐ 40600 0.71 0.05 5

0.79 3 notusa

7200 ‐ 55100 0.91 0.02 5

4600 ‐ 40300 0.72 0.06 4

PDO All 0.8 3 notusa

All All 0.52 0.04 5


1500 ‐ 40600 0.53 0.04 5

7200 ‐ 55100 0.81 0.13 3

4600 ‐ 40300 0.58 0.04 5

1500 ‐ 40600 0.5 0.06 4

7200 ‐ 55100 0.83 0.02 5

4600 ‐ 40300 0.52 0.07 4

0.73 3 FL

1.36 0.1632 3 FL

All All 0.98 0.13 3 FL

Install one left‐turn lane on the minor approach of

an unsignalized 3‐leg intersectionAll All All 0.75 0.1097 3 FL

0.74 0.26 3

0.8 0.28 3

Rear‐end,Sideswipe 0.75 0.27 3

All 0.87 0.28 3

Stop‐controlled, 3‐leg intersection 0.83 0.1827 3 FL

Stop‐controlled, 3‐leg or 4‐leg intersection 0.86 0.06 4

Signalized intersection 0.96 0.02 3

Stop‐controlled intersection 0.77 0.08 4


3‐leg intersection 0.8 0.08 3 FL

4‐leg intersection 0.75 0.19 3 FL

Provide a left‐turn lane on both major‐road

approaches

Rural

Urban

All All


All All All

AADT State

Provide a channelized left‐turn lane on both major‐

road approachesRural

PDO All

Provide a left‐turn lane on one major‐road

approach

Rural

All All

Urban

All


All

Countermeasures Area Type Crash Severity Crash Type NoteCMF Star Quality

Rating

All All

Urban AllIntroduce zero or positive offset left‐turn lane on

crossing roadway

Introduce raised/curb left‐turn channelization

Provide a right‐turn lane on one major‐road

approach

Angle

Rural

Convert a conventional signalized intersection to a

signalized superstreet

All

AllRural


All

All All



Value Std. ErrAADT StateCountermeasures Area Type Crash Severity Crash Type Note

CMF Star Quality

Rating

Rear‐end,Sideswipe 0.61 0.19 3

All 0.67 0.18 3



Major road 2.5 3 notusa

Minor road 1.6 3 notusa



PDO All 0.87 0.4 3


PDO All 0.8 0.34 3

Painted channelization of both major and minor

roadsRural Injury All 0.43 0.12 4

All All 0.95 0.21 3

PDO All 0.81 0.23 3

Presence of exclusive left turn (transit‐serviced

locations)Urban All All 0.88 0.029 3 notusa

Presence of exclusive left or right turn on either

approach (transit‐serviced locations)Urban All All 0.96 0.013 3 notusa

Increase the number of left‐turn lanes on the major

road of 2‐lane intersections from X to YRural All Sideswipe Eqn. 8‐1 3 GA

Increase the number of left‐turn lanes on the minor

road of 2‐lane intersections from X to YRural All Angle Eqn. 8‐2 3 GA

Change number of lanes on major road of a 4‐leg

signalized intersection from X to YUrban All Motorcycle Eqn. 8‐3 3 notusa

Change number of lanes on minor road of a 4‐leg

signalized intersection from X to YUrban All Motorcycle Eqn. 8‐4 3 notusa

Change number of lanes on minor road of a

signalized 3‐leg intersectionUrban All Motorcycle Eqn. 8‐5 3 notusa

Permit through movements from both minor

approaches to an intersection instead of from only

one minor approach

All All 0.31 0.09 3 FL

All 0.27 3 WI

Angle 0.13 3 WI

Rear‐end 0.37 3 WI

Change number of 3‐leg intersections from X to Y Urban Incapacitating injury Vehicle/pedestrian Eqn. 8‐6 3 NY

Change number of 5‐leg intersections from X to Y Urban Incapacitating injury Vehicle/pedestrian Eqn. 8‐7 3 NY

Convert a 4‐leg unsignalized intersection at

driveways to a regular 4‐leg unsignalized

intersection

All All All 1.11 0.1117 3 FL

Convert a 3‐leg unsignalized intersection at a

driveway to a 3‐leg unsignalized intersection at a

ramp junction

All All All 2.29 0.4604 3 FL

Minor road AADT: 0~15% 1.35 0.27 3

Minor road AADT: 15%~30% of total entering 0.75 0.08 4

Minor road AADT: > 30% of total entering 0.67 0.1 4

Minor road AADT: 0~15% 1.15 0.11 3

Minor road AADT: 15%~30% of total entering 1.00 0.09 3

Minor road AADT: > 30% of total entering 0.9 0.09 3

Presence of 3‐leg intersection vs. 4‐leg intersection Urban/suburban All Vehicle/bicycle 0.86 3 notusa

Provide a right‐turn lane on a signalized 3‐leg

intersection

All

All

Injury

PDO

Convert 4‐leg intersection into two 3‐leg

intersections

MotorcycleUrban All

Urban

Rural

All

RuralFatal and injury All

Rural

Physical channelization of both major and minor

roads

Painted channelization of left‐turn lane on major

road

Addition of left‐ or right‐turn by‐pass lanes

Presence of exclusive right turn phase at diamond

interchange ramps

Provide a right‐turn lane on both major‐road

approaches

Introduce painted left‐turn channelization AllRural

All All All



CMF Star Quality

Rating

Presence of right turning lane on arterial with signal

coordinationUrban/suburban All Rear‐end 0.06 0.02 3 IN

Rural Injury Vehicle/bicycle 1.01 0.44 3

All Injury Vehicle/bicycle 1.27 0.34 3


Serious injury All 0.83 0.23 3

Minor injury All 0.62 0.08 4

All All 0.64 0.123 4 WI

Fatal and injury All 0.818 0.154 3 WI

All All 1.062 0.153 4 WI


All All 1.242 0.648 3 WI

Fatal and injury All 0 3 WI




All All 0.42 0.13 4


0.28 0.11 4

0.95 0.18 3


0.751 0.105 4 WI

0.56 0.05 5



All All 0.29 0.05 5


1, 2 lanes 0.68 0.08 4

1 lane 0.22 0.07 4

2 lanes 0.81 0.11 3

1, 2 lanes 0.29 0.1 4

1 lane 0.22 0.12 4

2 lanes 0.32 0.14 4

1, 2 lanes 0.71 0.11 4

1 lane 0.61 0.12 4

2 lanes 0.88 0.21 3

1, 2 lanes 0.19 0.09 4

1 lane 0.22 0.12 4

1, 2 lanes 1.03 0.18 3

2, 4 lanes 1.114 0.259 4 WI


All All 1.099 0.118 4 WI


All All 0.659 0.094 4 WI


All

Rural

Suburban

All All

Injury All

All

All

All All

All

All

All

Rural

UrbanAll

Urban

All

All

All

Injury All

All

All

All

Conversion of intersection into roundabout

Conversion of intersection into single‐lane

roundabout

Conversion of intersection into multi‐lane

roundabout

Conversion of no control/yield intersection into

roundabout

Conversion of stop‐controlled intersection into

single‐lane roundabout

Conversion of two‐way stop‐controlled intersection

into roundabout

Conversion of all‐way, stop‐controlled intersection

into roundabout

Conversion of unsignalized intersection into

roundabout

Conversion of intersection into low‐speed

roundabout

Conversion of intersection into high‐speed

roundabout



CMF Star Quality

Rating

All 0.33 4 KS,MD,MN,OR,WA,WI

Angle 0.17 3 KS,MD,MN,OR,WA,WI

Fixed object 4.66 3 KS,MD,MN,OR,WA,WI

Rear‐end 0.85 3 KS,MD,MN,OR,WA,WI

Sideswipe 2.79 3 KS,MD,MN,OR,WA,WI

All 0.13 4 KS,MD,MN,OR,WA,WI

Angle 0.09 3 KS,MD,MN,OR,WA,WI

All All 0.74 3 KS,OR

Injury All 0.28 3 KS,OR

1, 2 lanes 0.32 4 KS,MD,MN,OR,WA,WI

1 lane 0.26 4 KS,MD,MN,OR,WA,WI

2 lanes 1.41 3 KS,MD,MN,OR,WA,WI

1, 2 lanes 0.12 4 KS,MD,MN,OR,WA,WI

1 lane 0.11 4 KS,MD,MN,OR,WA,WI

2 lanes 0.4 3 KS,MD,MN,OR,WA,WI

0.52 0.06 4

0.955 0.317 4 WI



All All 0.625 3 MS

Injury All 0.4 3 MS

0.33 0.05 4

0.58 0.05 4CO,FL,IN,MD,MI,NY,NC,

SC,VT,WA


SC,VT,WA

Fatal and injury All 0.259 0.066 4CO,FL,IN,MD,MI,NY,NC,

SC,VT,WA

Injury All 0.26 0.07 4CO,FL,IN,MD,MI,NY,NC,

SC,VT,WA

0.65 0.16 3

0.99 0.14 3


SC,VT,WA


SC,VT,WA

Fatal and injury All 0.445 0.1 4CO,FL,IN,MD,MI,NY,NC,

SC,VT,WA

0.26 0.25 3

0.4 0.14 4


SC,VT,WA

All

All All

All

All All

All

Injury

Suburban

Urban

All

All

Injury

All

All

All

Rural

Rural

Rural

Rural

Injury

Conversion of high‐speed rural 3‐leg intersection

into roundabout

Conversion of high‐speed rural 4‐leg intersection

into roundabout

Conversion of high‐speed rural intersection into

roundabout

Conversion of signalized intersection into

roundabout



CMF Star Quality

Rating

1, 2 lanes, 3‐leg, 4‐leg intersections 0.79 0.05 4CO,FL,IN,MD,MI,NY,NC,

SC,VT,WA

1, 2 lanes, 3‐leg intersections 1.07 0.16 3CO,FL,IN,MD,MI,NY,NC,

SC,VT,WA


SC,VT,WA

2 lanes, 3‐leg, 4‐leg intersections 0.81 0.06 4CO,FL,IN,MD,MI,NY,NC,

SC,VT,WA

1 lane, 3‐leg, 4‐leg intersections 0.74 0.09 4CO,FL,IN,MD,MI,NY,NC,

SC,VT,WA


SC,VT,WA


SC,VT,WA


SC,VT,WA


SC,VT,WA


SC,VT,WA


SC,VT,WA


SC,VT,WA


SC,VT,WA


SC,VT,WA


SC,VT,WA


SC,VT,WA


SC,VT,WA


SC,VT,WA


SC,VT,WA


SC,VT,WA




Convert traffic signals to unconventional median U‐

turnsUrban All All 1.132 0.06 4 notusa

Fatal and injury

Injury

All

All

Urban/suburban

All All

Conversion of signalized intersection into

roundabout


Table I. Intersection Traffic Control


Value Std. Err

Rural All All 0.52 0.04 5

Angle 0.25 0.03 5

Rear‐end 0.82 0.13 3



All PDO All 1.15 3 FL


Signalized intersection 0.85 3 FL

Angle 0.23 0.02 5

Left‐turn 0.4 0.06 4

Rear‐end 1.58 0.17 4

0.83 3 FL

Major road speed limit >= 40 mph 0.95 0.09 3

Angle Major road speed limit >= 40 mph 0.33 0.06 4

Rear‐end Major road speed limit >= 40 mph 2.43 0.37 3



Angle 0.33 0.24 4

Angle,Left‐turn,Right‐turn 0.76 0.14 4

Rear‐end 0.71 0.29 3


All All 0.76 0.09 4

All 1.07 0.01 5No state(s)

chosen.

Vehicle/bicycle 1.82 0.31 3

1.43 0.24 4

1.57 0.31 3

Vehicle/bicycle,Vehicle/pedestrian 1.69 0.1 5

Injury Right‐turn 1.6 0.09 4

PDO Right‐turn 1.1 0.01 5

All 0.92 0.1 3

Angle 0.96 0.21 3

Rear‐end 1.12 0.2 3


All 0.88 0.11 3

Angle 1.06 0.26 3

Rear‐end 1.08 0.21 3


Left‐turn 0.36 0.15 4

All 0.32 0.13 4

Left‐turn,Other 0.23 0.22 4

All 0.28 0.22 4

Rural

Urban

Urban

Convert minor‐road stop control to all‐way stop

control

Install a traffic signal

Remove unwarranted signal (one‐lane, one‐way

streets, excluding major arterials)

Permit right‐turn‐on‐red

Modify change plus clearance interval to ITE 1985

Proposed Recommended Practice

Prohibit left‐turns with "No Left Turn" sign

Prohibit left‐turns and U‐turns with "No Left Turn"

and "No U‐Turn" signs

Urban/suburban

Urban/suburban

All

Injury

All

All

StateCountermeasures Area Type Crash Severity Crash Type AADT

All

All

Fatal and injuryAll

All

All

All

CMF Star Quality

RatingNote

UrbanAll

Vehicle/pedestrian

All


Value Std. ErrStateCountermeasures Area Type Crash Severity Crash Type AADT

CMF Star Quality

RatingNote

All 0.95 0.04 3

0.87 0.06 4

0.72 0.25 3

0.88 0.07 3

0.42 0.2 4

0.87 0.06 4

0.86 0.12 3

Rear‐end 0.92 0.11 3


Rural All Angle 0.84 0.06 4

Suburban All Angle 0.88 0.12 3

Urban All Angle 1.12 0.28 3

Add 3‐inch yellow retroreflective sheeting to signal

backplatesUrban All All 0.85 0.005 4 notusa

Urban All All 0.72 3 notusa

Urban All Rear‐end 0.72 3 notusa

Urban Fatal and injury All 0.83 3 notusa

Urban PDO All 0.69 3 notusa

0.51 0.031 3 KS

0.71 0.068 3 IA

Angle 0.26 0.032 3 KS

Rear‐end 0.59 0.07 3 KS

Fatal and injury All 0.56 0.068 3 KS

PDO All 0.49 0.034 3 KS

Install a stop sign on minor approach of an

unsignalized intersectionAll All All 1.18 0.17 3 FL

1.4 0.28 3 FL

0.78 3 FL

Install two‐way stop controlled intersections at

uncontrolled intersectionsUrban/suburban All All Residential streets 0.489 0.066 4 notusa

All

Provide flashing beacons at stop controlled

intersections

Add signal (additional primary head)

Convert signal from pedestal‐mounted to mast arm

Install a stop sign on both minor approaches of an

unsignalized intersectionAll

All

All

All

All All

All

AngleAll



CMF Star Quality

RatingNote

0.68 0.00018 3

AL,AK,AZ,AR,CA,

CO,CT,DE,DC,FL,

GA,HI,ID,IL,IN,IA

,KS,KY,LA,ME,M

D,MA,MI,MN,M

S,MO,MT,NE,NV

,NH,NJ,NM,NY,

NC,ND,OH,OK,O

R,PA,RI,SC,SD,T

N,TX,UT,VT,VA,

WA,WV,WI,WY

Eqn. 9‐1 3

AL,AK,AZ,AR,CA,

CO,CT,DE,DC,FL,

GA,HI,ID,IL,IN,IA

,KS,KY,LA,ME,M

D,MA,MI,MN,M

S,MO,MT,NE,NV

,NH,NJ,NM,NY,

NC,ND,OH,OK,O

R,PA,RI,SC,SD,T

N,TX,UT,VT,VA,

WA,WV,WI,WY

Eqn. 9‐2 3

AL,AK,AZ,AR,CA,

CO,CT,DE,DC,FL,

GA,HI,ID,IL,IN,IA

,KS,KY,LA,ME,M

D,MA,MI,MN,M

S,MO,MT,NE,NV

,NH,NJ,NM,NY,

NC,ND,OH,OK,O

R,PA,RI,SC,SD,T

N,TX,UT,VT,VA,

WA,WV,WI,WY

All All 0.45 3 notusa

Fatal and injury All 0.28 3 notusa

0.63 0.193 3 PA

0.554 0.235 3 PA

Fatal and injury All 0.85 3 notusa

PDO All 0.96 3 notusa

All Eqn. 9‐3 3 UT

Angle Eqn. 9‐4 3 UT

All 0.975 0.085 3 NC

Angle 0.021 0.021 4 NC

Install stop sign at passive highway‐rail crossing

Install stop signs at alternate intersections in

residential areas

Modify signal phasing (implement a leading

pedestrian interval)

Left turn phase improvement

Change traffic signal spacing from X to Y signals per

mile

Change left‐turn signal phase (Permitted to

protected)

Urban

Urban

Urban

All

Urban

All

All Vehicle/bicycle,Vehicle/pedestrian

All

Urban



CMF Star Quality

RatingNote

0.58 0.34 3

0.99 0.13 3

0.04 0.08 4

0.01 0.03 5

1.045 0.135 3 NC

1.031 0.022 4 notusa,NC

Intersections only 0.958 0.036 4 notusa,NC

0.862 0.05 4 notusa,NC



1.075 0.036 4 notusa,NC

0.962 0.035 4 notusa,NC


Left‐turn 0.84 0.02 5

Change left‐turn signal phase (Protected to

protected‐permitted)All 0.96 0.44 3

All All 1.02 0.123 3 NC

All Angle 0 0.006 3 NC

Change left‐turn signal phase (Protected‐permitted

to permitted‐protected)All All 0.87 0.42 3

All 0.94 0.1 3 No state(s)

Left‐turn 0.01 0.01 5

All Intersections only 1.081 0.027 4 notusa,NC

Left‐turn Intersections only 0.925 0.067 4 notusa,NC

Rear‐end Intersections only 1.094 0.045 4 notusa,NC

Fatal and injury All Intersections only 0.995 0.043 4 notusa,NC

All Intersections only 0.753 0.094 5 NC,OR,WA

Left‐turn Intersections only 0.635 0.126 5 NC,OR,WA



Change left‐turn phase (Lag‐lag to lead‐lag) All Angle 0.33 3 TX

Change left‐turn phase (Lag‐lag to lead‐lead) All Angle 0.31 3 TX

Change left‐turn phase (Lead‐lead to lag‐lag,

protected‐only)All Angle 2.16 3 TX

Change left‐turn phase (Lead‐lead to lead‐lag,

protected‐only)All Angle 0.69 3 TX

Change left‐turn phase (Lead‐lead to lead‐lag,

protected/permissive)All Angle 1.57 3 TX

Change left‐turn phase (Leading protected to

lagging protected exclusive)All All 1.15 0.42 3

All 0.97 0.06 3 NC

Angle 0.58 0.07 4 NC

All 1.18 0.11 3 NC

Angle 1.05 0.13 3 NC

Change left‐turn signal phase (Protected‐permitted

to protected)

Change left turn phase from protected‐permitted to

flashing yellow arrow (FYA)

Replace 8‐inch red signal heads with 12‐inch

Install dual red signal lenses

Change left‐turn signal phase (Permitted‐protected

to protected on major approach)

Change left‐turn signal phase (Permitted to

protected‐permitted or permitted protected)

Change left‐turn signal phase (to protected on one

or more approaches)

Urban

Urban

Urban

Urban

Change left‐turn phase from at least one permissive

approach to flashing yellow arrow (FYA)

Urban All

Angle

All

All

Rear‐end

Left‐turn

All

Fatal and injury

All

All

All

All

All

All

All



CMF Star Quality

RatingNote

3‐leg,4‐leg,more than 4 leg intersection 0.64 0.07 4 notusa


4‐leg intersection 0.61 0.06 4 notusa

More than 4 leg intersection 0.25 0.17 3 notusa



3‐leg,4‐leg,more than 4 leg intersection 0.5 3 notusa

3‐leg intersection 0.65 3 notusa


More than 4 legs intersection 0.14 3 notusa

Angle 0.16 3 notusa

Left‐turn,Right‐turn 1.65 3 notusa

Vehicle/bicycle 0.7 3 notusa

0.96 0.1 3 notusa

0.92 0.08 3 notusa

0.98 0.06 3 notusa


Main roadway 0.82 0.07 4 notusa

Minor roadway 0.84 0.12 3 notusa

0.8 0.07 4 notusa






0.84 0.06 4 notusa









0.92 0.07 3 notusa






1.11 0.11 3 notusa

Convert yield signal control to signalized control

(intersection crashes)


(end‐crossroad crashes 80‐200 m away from

intersection)


(crashes 10‐100 m away from intersection)







Urban

Urban

Urban

Urban

Urban

Urban

All

All

All

All

All

All

All

All

All

All

All All



CMF Star Quality

RatingNote

Urban All Minor roadway 0.96 0.06 3 notusa





0.85 0.04 4 notusa































3‐leg,4‐leg,more than 4 leg intersection 1.01 0.09 3
















(roadway crashes up to 200 m away from

intersection)


(crashes up to 500 m away from intersection)


(intersection and roadway crashes up to 200 m

away from intersection)

Urban

Urban

Urban

All

All

AllAll

Vehicle/bicycle

Vehicle/pedestrian

Vehicle/bicycle

Vehicle/pedestrian

All

All

Angle

Head‐on,Rear‐end

Left‐turn,Right‐turn

Single vehicle

Angle



Single vehicle



CMF Star Quality

RatingNote

Convert from yield signal control to signalized

control (intersection crashes with 1 signal 200‐500

m away)

Urban All All 0.59 0.14 3 notusa


(intersection crashes with 1‐2 signals under 200 m

away)



(intersection crashes with 2 signals 200‐500 m

away)


All Eqn. 9‐5 3 WI



All Eqn. 9‐8 3 WI



Change number of traffic signal cycles per hour on

arterial with signal coordination from X to YUrban/suburban All Rear‐end Eqn. 9‐11 3 IN

Change number of all‐way stop intersections from X

to YUrban Incapacitating injury Vehicle/pedestrian Eqn. 9‐12 3 NY

Change number of signalized intersections from X to

YUrban Incapacitating injury Vehicle/pedestrian Eqn. 9‐13 3 NY

All 0.319 0.022 4 NC

Angle 0.855 0.112 3 NC

Angle,Head‐on,Left‐turn,Right‐turn 0.247 0.02 4 NC


All 0.393 0.033 4 NC

Angle 680 ‐ 15100 0.943 0.152 3 NC



All 0.183 0.035 4 NC

Angle 1340 ‐ 9900 0.601 0.201 3 NC



All 0.198 0.039 4 NC



All 0.93 4 notusa

Daytime 0.94 4 notusa

Nighttime 0.93 4 notusa

0.97 4 notusa

0.71 3 notusa

0.91 4 notusa

0.79 3 notusa

Daytime 1.004 0.039 4 notusa


Daytime 0.901 0.029 4 notusa


Replace standard stop sign with flashing LED stop

signAll Angle 0.59 0.25 3 MN

4‐leg intersections, 3 or 4 lanes per approach,

50 km/hr posted speed

Change difference between actual and ITE‐

recommended yellow change interval from X to Y

seconds at diamond interchange ramps

Change difference between actual and ITE‐

recommended red clearance interval from X to Y

seconds at diamond interchange ramps

Convert minor‐road stop control to all‐way stop

control

Convert two‐way (without flashing beacons) to all‐

way stop control (without flashing beacons)

Convert two‐way (without flashing beacons) to all‐

way stop control (with flashing beacons)

Convert two‐way (with flashing beacons) to all‐way

stop control (with flashing beacons)

Improve signal visibility

Improve signal visibility, including signal lens size

upgrade, installation of new back‐plates, addition of

reflective tapes to existing back‐plates, and

installation of additional signal heads

All

All

All

All

Urban

Urban

All

Fatal and injury

PDO

All

All

All

All

All

Fatal and injury

All

All

PDO

All



CMF Star Quality

RatingNote

All 0.814 0.062 4 NV,VA

Angle 0.745 0.086 4 NV,VA

Rear‐end 0.792 0.079 4 NV,VA

Truck related 0.956 0.177 3 NV,VA

Fatal and injury All 0.82 0.083 4 NV,VA

All 1.14 0.177 3 CA,MD

Angle 1.076 0.297 3 CA,MD

Rear‐end 0.934 0.237 3 CA,MD

Fatal and injury All 1.07 0.216 3 CA,MD

All Between 1‐2 second increase 0.798 0.074 4 CA,MD

Angle Between 1‐2 second increase 0.966 0.164 3 CA,MD

Rear‐end Between 1‐2 second increase 0.804 0.135 3 CA,MD

Fatal and injury All Between 1‐2 second increase 0.863 0.114 3 CA,MD

All 0.99 0.146 3 CA,MD

Angle 0.961 0.217 3 CA,MD

Rear‐end 1.12 0.288 3 CA,MD


All 0.728 0.077 3 CA,MD

Angle 0.84 0.195 3 CA,MD

Rear‐end 0.848 0.142 3 CA,MD


All 0.922 0.089 3 CA,MD

Angle 1.068 0.156 3 CA,MD

Rear‐end 0.643 0.13 4 CA,MD


All 0.918 0.058 4 NE

Angle 0.564 0.056 4 NE

Rear‐end 0.988 0.115 4 NE

Truck related 0.995 0.133 4 NE

Injury All 0.887 0.105 4 NE

All 0.52 0.06 4 NC

Angle,Head‐on,Left‐turn,Sideswipe 0.43 0.07 4 NC


Angle,Nighttime 0.66 0.32 3


All 0.73 0.08 3 NC

Frontal and opposing direction

sideswipe,Head‐on0.52 0.07 3 NC


Yellow between 0.5‐1.6 second increase, Red

between 1‐2 second increaseIncrease yellow interval and add all red interval

Increase total change interval (remains less than ITE

recommended practice)

Increase total change interval (greater than ITE

recommended practice)

Installation of an actuated advance warning

dilemma zone protection system at high‐speed

signalized intersections

Replace Nighttime Flash with Steady Operation

Install dynamic signal warning flashers

Increase yellow change interval

Increase all red clearance interval

All

Urban

Urban

Urban

Urban

Urban

All

Urban

All

All

All

All

All

All

All

All

All

All



CMF Star Quality

RatingNote

4‐leg intersection 1.47 0.042 3 TN

3‐leg intersection 1.042 0.051 3 NC
















Install pedestrian countdown timer All Vehicle/pedestrian 0.3 4 MI



All Multiple vehicle 0.95 0.07 3

Injury Multiple vehicle 0.91 0.07 3

Modify change plus clearance interval to ITE 1985

Proposed Recommended Practice

Replace Incandescent Traffic Signal Bulbs with Light

Emitting Diodes (LEDs)

Change left‐turn phasing from protected to flashing

yellow arrow

Urban

Urban All

All

Fatal and injury

All

Angle,Head‐on,Left‐turn

Nighttime

Rear‐end

All

Nighttime


Table J. On-Street Parking


Value Std. Err

All All 0.58 0.08 4

Fatal and injury All 30000 ‐ 40000 0.78 0.05 5

Minor arterial 0.8 0.05 5

Principal arterial, Other 0.65 0.14 4


Principal arterial, Other 0.52 0.1 4

30000 ‐ 40000 Principal arterial, Other 0.72 0.02 5


PDO All 1.19 0.05 5

All 0.89 0.06 3

Parking related 0.21 0.09 4

0.65 0.07 4

0.72 0.11 4

0.37 0.07 4

0.43 0.18 4


Mark parking stalls Urban All All 1.51 0.2 4

All land uses Eqn. 10‐1 3 notusa

Residential land uses Eqn. 10‐2 3 notusa

Residential and mixed land uses Eqn. 10‐3 3 notusa

All land uses, during rush hours Eqn. 10‐4 3 notusa

All land uses Eqn. 10‐5 3 notusa

Residential land uses Eqn. 10‐6 3 notusa

Residential and mixed land uses Eqn. 10‐7 3 notusa

All lane uses, during rush hours Eqn. 10‐8 3 notusa

Residential land uses, during rush hours Eqn. 10‐9 3 notusa

Residential and mixed land uses, during rush

hoursEqn. 10‐10 3 notusa

Change unrestricted parking hours from X to Y

hoursAllAllUrban

Change unrestricted left turn hours from X to Y

hoursAllAllUrban

Convert angle parking to parallel parking

PDO

UrbanInjury

All

All

Convert free to regulated parking Urban

Countermeasures Area Type Crash Severity Crash Type

Prohibit on‐street parkingAll

All

State

Urban


Rating

All

Parking related

AADT


Table K. Pedestrians


Value Std. Err

Raised median with marked crosswalk

(uncontrolled)Urban/suburban All Vehicle/pedestrian > 15000 0.54 0.48 3

AZ,CA,FL,KS,LA,

MD,MA,MO,NC,

OH,OR,PA,TX,UT

,WA,WI

All 0.724 0.0651 3 CA

Minor injury 0.839 0.0541 3 CA

Install crosswalk on one minor approach All All All 0.35 3 FL

Install high‐visibility yellow, continental type

crosswalks at schoolsUrban All Vehicle/pedestrian 567 ‐ 43199 0.63 0.12 3 CA

All 0.712 0.065 4 AZ

Vehicle/pedestrian 0.309 0.156 3 AZ

Incapacitating injury All 0.849 0.118 3 AZ

Change number of subway stations from X to Y Urban Incapacitating injury Vehicle/pedestrian Eqn. 11‐1 3 NY

Change number of bus stations from X to Y Urban Incapacitating injury Vehicle/pedestrian Eqn. 11‐2 3 NY

Change number of bus stops in 50m buffer from X

to YUrban/suburban All Vehicle/bicycle Eqn. 11‐3 3 notusa

Mid‐block crossing or signalized intersection 0.81 3 notusa

Signalized intersection 0.74 3 notusa

Mid‐block crossing 0.83 3 notusa



Mid‐block crossing 0.78 3 notusa

Pelican crossing*

These are signal‐controlled crossings where flashing

amber follows the red 'Stop' light. You must stop

when the red light shows. When the amber light is

flashing, you must give way to any pedestrians on

the crossing. If the amber light is flashing and there

are no pedestrians on the crossing, you may

proceed with caution.

Puffin crossing**

These are similar to pelican crossings, but there is

no flashing amber phase

Countermeasures Area Type Crash Severity

Fatal and injury

Note

Implement to Safe Routes to School Program

Crash Type AADT

Urban/suburban

Installation of a High intensity Activated crossWalK

(HAWK) pedestrian‐activated beacon at an

intersection

Convert Pelican crossing* or farside pedestrian

signal to Puffin crossing**

State

Vehicle/pedestrian

All

CMF Star Quality

Rating

Vehicle/bicycle,Vehicle/pedestrian

All


Table L. Railroad Grade Crossings


Value Std. Err

Implementing signs and crossbucks at previously

unprotected crossingsAll 0.75 0.18 3

Install flashing lights and sound signals All All 0.5 0.05 5

Minor arterials 0.22 0.05 4

Multiple tracks 0.31 0.14 4

Local roads with single track crossing 0.21 0.04 5

Single track crossing at other road types (not

local roads)0.26 0.23 4

All 0.23 0.03 5


Local roads 0.13 0.03 5

Local roads 0.09 0.02 5

All roads 0.07 0.01 5

Install automatic gates at crossings that previously

had passive traffic controlAll All 0.33 0.09 4

Install automatic gates at crossings that previously

had flashing lights and sound signalsAll All 0.55 0.09 4

Upgrade signs to flashing lights

AADT StateNoteCMF Star Quality

Rating

Installing gates at crossings with signs


All All

All All


Table M. Roadside Features


Value Std. Err



PDO All 0.71 0.04 5



PDO All 0.76 0.02 5


Fatal Run‐off‐road 0.56 0.1 4

Injury Run‐off‐road 0.53 0.05 5

Fatal Run‐off‐road 0.59 0.31 3

Injury Run‐off‐road 0.68 0.1 4

All All 0.14 0.029 3 OH

Fatal and injury All 0.12 0.052 3 OH

All All 20000 ‐ 60000 1.24 0.03 5

Fatal All 20000 ‐ 60000 0.57 0.1 4

Injury All 20000 ‐ 60000 0.7 0.06 4

Install steel median barrier Rural Injury All 20000 ‐ 60000 0.65 0.08 4

Injury All 20000 ‐ 60000 0.71 0.11 4

Cross median,Frontal and opposing direction

sideswipe,Head‐on0.09 0.1 4 IN

Fixed object,Run‐off‐road,Single vehicle 1.83 0.76 4 IN

Rear‐end,Sideswipe 0.86 0.36 5 IN

All Cross median 0.38 0.104 3 UT

Incapacitating injury All 0.56 0.104 3 UT

All 10000 ‐ 180000 1.91 0.0622 3 WA

Cross median 10000 ‐ 180000 0.35 0.037 3 WA

Other 10000 ‐ 180000 0.47 0.033 3 WA

Depressed 30‐50 ft median without barrier. 0.75 0.58 4 IN

Depressed 50+ ft median without barrier. 1.87 0.81 3 IN

Depressed 30‐50 ft median without barrier. 0.74 0.53 4 IN

Depressed 50+ ft median without barrier. 0.78 0.39 3 IN



Fixed object,Run‐off‐road,Single vehicle 1.72 0.58 4 IN

Rear‐end,Sideswipe 1.08 0.63 4 IN

All Other 37429 ‐ 74191 1.378 0.108 3 FL

PDO Other 37429 ‐ 74191 1.881 0.218 3 FL

Install cable median barrier (on curve) Rural AllCross median,Frontal and opposing direction


Install cable median barrier (on tangent) Rural AllCross median,Frontal and opposing direction

sideswipe,Head‐on0 3 IN


sideswipe,Head‐on10000 ‐ 43000 0 4

CO,IL,IN,MO,NY,

OH,OR,WA

Sideswipe 10000 ‐ 43000 0.8 0.37 4CO,IL,IN,MO,NY,

OH,OR,WA

Single vehicle 10000 ‐ 43000 2.2 1.13 4CO,IL,IN,MO,NY,

OH,OR,WA


Fatal All 0.13 0.41 3

PDO All 1.4 0.34 3

All Cross median 0.22 0.19 4

CMF Star Quality

RatingAADT

All

All

All

Rural

Note

Fixed object,Run‐off‐road,Single vehicle

Rear‐end,Sideswipe

All

All

Crash Severity Crash Type

All

Flatten sideslope from 1V:4H to 1V:6H

New guardrail along embankment

Change barrier along embankment to less rigid type

Rural

Rural

Rural

Install cable median barrier (high tension)

Install concrete guardrail in median

Install beam guardrails on median of divided

highway

Install cable median barrier

State

Install cable median barrier (low tension)

Flatten sideslope from 1V:3H to 1V:4H

Rural

Countermeasures Area Type

Install median barrier

Rural

All

Rural


Value Std. Err

CMF Star Quality

RatingAADT NoteCrash Severity Crash Type StateCountermeasures Area Type

Fatal Fixed object 0.31 0.28 3

Injury Fixed object 0.31 0.1 4

PDO Fixed object 0.54 0.3 3

Fatal All 0.44 3 30+ states

PDO All 0.89 0.15 3

0.53 0.29 3

0.63 3 30+ states

All All 0.62 0.103 3 OH

Fatal and injury All 0.62 0.134 3 OH

3300 ‐ 34000 0.98 0.24 3 CA

3300 ‐ 34000 0.68 0.15 3 CA

Presence of grass land use Urban All All 1.95 0.7 3 IA

Change proportion of commercial land use to total

land use from X to YUrban Incapacitating injury Vehicle/pedestrian Eqn. 13‐1 3 NY

Change proportion of industrial land use to total

land use from X to YUrban Incapacitating injury Vehicle/pedestrian Eqn. 13‐2 3 NY

Change proportion of open land use to total land

use from X to YUrban Incapacitating injury Vehicle/pedestrian Eqn. 13‐3 3 NY

Change total park area (in 1000 acres) from X to Y Urban Incapacitating injury Vehicle/pedestrian Eqn. 13‐4 3 NY

Change clear zone from greater than or equal to 8m

to less than or equal to 2mRural Fatal and injury Run‐off‐road 1200 ‐ 2400 2.19 3 notusa


to between 2m and 4mRural Fatal and injury Run‐off‐road 1200 ‐ 2400 1.6 3 notusa


to between 4m and 8mRural Fatal and injury Run‐off‐road 1200 ‐ 2400 1.27 3 notusa

3500 ‐ 3500 On tangent sections 0.68 3 TX

3500 ‐ 3500 On horizontal curve sections 0.49 3 TX

Change the lateral offset of utility poles Rural Fixed object 377 ‐ 16089 Eqn. 13‐5 3 notusa

Change the longitudinal density of utility poles Rural Fixed object 377 ‐ 16089 Eqn. 13‐6 3 notusa

Increase distance to roadside features from 3.3 ft to

16.7 ftRural All All 0.78 0.02 5

Increase distance to roadside features from 16.7 ft

to 30 ftRural All All 0.56 0.01 5

All All

Rural

All

Fatal and injury Run‐off‐road,Single vehicle

Injury All

Increase lateral clearance from 10 to 40 feet

Install crash cushions at fixed roadside features

Remove or relocate fixed objects outside of clear

zone

Increase triangle sight distance

Construct gateway monument (on state‐owned

road)

All


Table N. Roadway Features


Value Std. Err

Increase lane width Urban All All 0.72 3 NJ

Convert lane width (11 ft to 9 ft) Rural All All 1.21 0.12 3



186 ‐ 15106 1.05 3 ID

186 ‐ 400 1.04 3 ID

186 ‐ 15106 1.04 3 ID

186 ‐ 400 1.04 3 ID

186 ‐ 15106 1.07 3 ID

186 ‐ 400 1.06 3 ID

186 ‐ 15106 1.02 3 ID

186 ‐ 400 1.01 3 ID

186 ‐ 15106 1.03 3 ID

186 ‐ 400 1.02 3 ID

186 ‐ 15106 1.02 3 ID

186 ‐ 400 1.02 3 ID

Convert lane width (12 ft to 10 ft, with a total

shoulder of X ft)Urban/suburban Fatal and injury All 1183 ‐ 47067 Eqn. 14‐1 3 IL





79000 ‐ 128000 One direction 1.11 0.05 4

Undivided 0.45 0.051 3 LA


Injury and PDO All 79000 ‐ 128000 1.1 0.07 3

Suburban All All 0.43 0.062 3 LA

All All 77000 ‐ 126000 1.03 0.08 3


Injury and PDO All 77000 ‐ 126000 1.04 0.11 3

All 0.5 0.2 4

All 0.71 0.24 3

All 0.96 0.19 3


PDO All 0.73 0.02 5

All 0.85 0.09 3

All 1.12 0.14 3

All 0.92 0.08 3

All 1 0.12 3

0.89 0.26 3

0.92 0.07 3


3510 ‐ 17020 0.95 0.091 3 MI

All

Multiple vehicle

Single vehicle

All All

All

Injury

PDO

All

All

All

All

Multiple vehicle

Single vehicle

All All

Convert lane width (12 ft to 10 ft)

Convert lane width (12 ft to 11 ft)

Rural

Rural

All

Four to five lane conversionUrban

Short‐term effects of all measures to control snow,

slush or ice

Raise standard by one class for winter maintenance

Urban

All

All

Effects of use of salt (chemical de‐icing) during the

whole winter season (baseline = no salt)

Effects of snow fences and higher state of

preparedness for the whole winter season

Road diet (Convert 4‐lane undivided road to 2‐lanes

plus turning lane)

Five to six lane conversion

Urban

All

All

StateCountermeasures Area Type Crash Severity Crash Type AADT NoteCMF Star Quality

Rating

All

All All


Value Std. ErrStateCountermeasures Area Type Crash Severity Crash Type AADT Note

CMF Star Quality

Rating

3510 ‐ 17020 Target crashes 0.59 0.061 3 MI

3510 ‐ 17020 High crash areas 0.91 3 MI

3510 ‐ 17020 Residential areas 0.77 3 MI

3510 ‐ 17020 Mixed use areas 1.06 3 MI

3510 ‐ 17020 Commercial areas 1.05 3 MI

3510 ‐ 17020 Low driveway density 1.07 3 MI

3510 ‐ 17020 High driveway density 0.81 3 MI

3510 ‐ 17020 8 or fewer intersections 0.95 3 MI

3510 ‐ 17020 9 or more intersections 0.93 3 MI

Suburban All All 0.47 0.01 4

All 0.63 0.00632 3 MN

Left‐turn 0.76 0.01643 3 MN

Angle Right‐angle 0.63 0.00949 3 MN

Rear‐end 0.69 0.01517 3 MN

Fatal and injury All 1 0.01581 3 MN

PDO All 0.54 0.00775 3 MN

17049 ‐ 74079 1.16 0.02 4 VA

< 10000 vpdpl 0.87 0.041 4 VA

> 10000 vpdpl 1.28 0.02 4 VA

17049 ‐ 74079 1.15 0.041 4 VA

< 10000 vpdpl 0.50 0.046 4 VA

> 10000 vpdpl 1.34 0.051 4 VA

17049 ‐ 74079 1.10 0.031 4 VA

4041 ‐ 24361

4‐lane segments, trucks traveling less than 15

mph below the speed limit prohibited on left‐

most lanes

0.68 0.177 3 VA

< 10000 vpdpl 0.68 0.046 4 VA

> 10000 vpdpl 1.23 0.036 4 VA

17049 ‐ 74079 0.99 0.051 4 VA

< 10000 vpdpl 0.6 0.082 4 VA

> 10000 vpdpl 1.14 0.066 4 VA

Convert 12‐ft lanes and 6‐ft shoulders to 10‐ft lanes

and 3‐ft shouldersRural All Run‐off‐road > 1000 1.13 0.044 3 PA












and 7‐ft shouldersRural All Run‐off‐road > 1000 1 0.135 3 PA




and 5‐ft shouldersAll All Run‐off‐road > 1000 0.87 0.07 3 PA

All 1390 ‐ 51200 3.42 1.321 3 UT

Angle 1390 ‐ 51200 1.77 0.308 3 UT

Refinish concrete pavement with inverted turf of

stiff‐bristled broom (wet weather crashes)All All 0.635 0.048 3 MN

Commercial vs. residential land use Urban All

All

All

Truck related

All

Truck related

All

Narrow cross section (4 to 3 lanes with two way left‐

turn lane)Urban

Road diet (Convert 4‐lane undivided road to 2‐lanes

plus turning lane)

Fatal and injury

All

Implement truck lane restrictions on multilane

freeways (trucks prohibited from left‐most lanes)

All



CMF Star Quality

Rating

3000/lane ‐

6999/lane0.63 0.087 3 notusa

7000/ane ‐ 0.74 0.056 3 notusa

3000/lane ‐

6999/lane0.62 3 notusa

7000/lane ‐ 0.67 3 notusa

3000/lane ‐



3000/lane ‐



3000/lane ‐



Not intersec on related 0.76 0.03 5

3475 ‐ 65850 0.799 0.028 4 NY

3‐leg, Signalized intersec on 0.667 0.05 4 NY

3‐leg, Stop‐controlled intersec on 0.819 0.048 4 NY

3‐leg intersec on, Yield sign 0.59 0.114 3 NY




1814 ‐ 185570 Not intersec on related 0.764 0.023 4 NY

1.045 0.078 4 NY





0.799 0.123 3 NY







0.582 0.034 4 NY








0.322 0.041 4 NY

1814 ‐ 185570 Not intersection related 0.575 0.055 4 NY






Single vehicle All Not intersec on related 0.7 0.05 5

Refinish pavement with microsurfacing treatment

(thickness from 8‐10 mm)

Improve pavement friction (increase skid resistance) All All

All

Angle

Angle,Wet road

Rear‐end

All


Rear‐end

Wet road

All

All

Intersection

Rear‐end,Wet road



CMF Star Quality

Rating

All Not intersec on related 0.43 0.03 5

Not intersec on related 0.426 0.03 4 NY








2 lanes, undivided 0.964 0.073 3 NY

0.684 0.032 4 NY


0.776 0.068 4 NY


0.474 0.079 3 NY


0.346 0.028 4 NY


0.862 0.038 4 NY


0.866 0.059 4 NY


0.64 0.084 3 NY


0.538 0.045 4 NY

8500 ‐ 22500 0.775 0.058 4 AR

0.686 0.057 4 CA

0.874 0.073 3 IL

0.843 0.048 4 NC

0.797 0.03 5 AR,CA,IL,NC

0.506 0.073 4 CA

0.58 0.076 3 IL

0.783 0.077 4 NC

0.613 0.04 5 AR,CA,IL,NC

8500 ‐ 22500 0.629 0.11 4 AR

0.725 0.087 4 CA

0.469 0.119 3 IL

1.019 0.147 4 NC

0.739 0.068 5 AR,CA,IL,NC

0.64 0.04 5

8500 ‐ 22500 0.488 0.071 4 AR

0.492 0.057 4 CA

0.833 0.105 3 IL

0.727 0.055 4 NC

Rear‐end 0.53 0.05 5


8500 ‐ 22500 0.962 0.083 3 AR

1.028 0.134 3 CA

0.906 0.1 3 IL

1.05 0.088 4 NC

All Rear‐end 8500 ‐ 22500 0.501 0.073 4 AR

Rural

Urban

All

Rural

Urban

Install TWLTL on two lane road

Improve pavement friction (increase skid resistance)

All All

All

All All

All

All

All

All

Rear‐end

Rear‐end,Wet road

Wet road

All

Rear‐end

Rear‐end,Wet road

All

All

Rear‐end

All

Wet road

Wet road

Fatal and injury



CMF Star Quality

Rating

5000 ‐ 22000 0.86 0.05 4

1336 ‐ 13240 0.89 0.058 4 MN

574 ‐ 17591 0.98 0.033 4 PA

3167 ‐ 20784 1.02 0.081 4 WA

574 ‐ 20784 0.96 0.026 4 MN,PA,WA

574 ‐ 20784 0.91 0.02 5CA,CO,DE,MD,M

N,OR,PA,WA

Cross median 200 ‐ 8000 0.328 0.151 4 KS


sideswipe,Head‐on,Run‐off‐road0.71 4 notusa

5000 ‐ 22000 0.79 0.14 4

1336 ‐ 13240 0.51 0.073 4 MN

574 ‐ 17591 0.74 0.179 4 PA

3167 ‐ 20784 0.65 0.292 3 WA

574 ‐ 20784 0.63 0.053 5 MN,PA,WA

574 ‐ 20784 0.7 0.045 5CA,CO,DE,MD,M

N,OR,PA,WA

Other 200 ‐ 8000 0.708 0.098 4 KS

Run‐off‐road 200 ‐ 8000 0.808 0.141 4 KS

1336 ‐ 13240 0.78 0.066 4 MN

574 ‐ 17591 0.94 0.042 4 PA

3167 ‐ 20784 1.04 0.146 4 WA

574 ‐ 20784 0.91 0.035 5 MN,PA,WA

574 ‐ 20784 0.88 0.028 5CA,CO,DE,MD,M

N,OR,PA,WA

200 ‐ 8000 0.66 0.141 4 KS

1336 ‐ 13240 0.55 0.067 4 MN

574 ‐ 17591 0.56 0.308 4 PA

3167 ‐ 20784 0.65 0.292 3 WA

574 ‐ 20784 0.55 0.064 5 MN,PA,WA

All 5000 ‐ 22000 0.85 0.08 3

Head‐on,Sideswipe 5000 ‐ 22000 0.75 0.18 3

All 2338 ‐ 22076 1.02 0.08 4 PA

Head‐on,Sideswipe 2338 ‐ 22076 0.6 0.17 4 PA

All 2338 ‐ 22076 0.91 0.095 4 PA

Head‐on,Sideswipe 2338 ‐ 22076 0.36 0.269 3 PA

1336 ‐ 13240 0.83 0.096 4 MN

574 ‐ 17591 1.16 0.092 4 PA

3167 ‐ 20784 1.03 0.16 4 WA

574 ‐ 20784 1.04 0.065 4 MN,PA,WA

1336 ‐ 13240 0.48 0.136 3 MN

574 ‐ 17591 0.53 0.139 4 PA

3167 ‐ 20784 1.46 1.029 3 WA

574 ‐ 20784 0.53 0.099 5 MN,PA,WA

1336 ‐ 13240 0.63 0.116 4 MN

574 ‐ 17591 1.1 0.114 4 PA

3167 ‐ 20784 0.79 0.129 3 WA

574 ‐ 20784 0.94 0.081 4 MN,PA,WA

Install centerline rumble strips

Install centerline rumble strips on horizontal curves

Injury

Urban

All

Fatal and injury

All

Fatal and injury

Rural

All

All

Head‐on,Sideswipe

Fatal and injury

All

Head‐on,Sideswipe

All

All

Head‐on,Sideswipe

Rural



CMF Star Quality

Rating

1336 ‐ 13240 0.9 0.055 4 MN

574 ‐ 17591 0.9 0.084 4 PA

3167 ‐ 20784 1.02 0.093 4 WA

574 ‐ 20784 0.92 0.043 4 MN,PA,WA

1336 ‐ 13240 0.51 0.079 4 MN

574 ‐ 17591 0.57 0.184 3 PA

3167 ‐ 20784 0.33 0.19 3 WA

574 ‐ 20784 0.51 0.069 5 MN,PA,WA

1336 ‐ 13240 0.82 0.078 4 MN

574 ‐ 17591 0.78 0.1 4 PA

3167 ‐ 20784 1.1 0.173 4 WA

574 ‐ 20784 0.85 0.059 5 MN,PA,WA

Other 200 ‐ 8000 0.772 0.112 4 KS

Cross median 200 ‐ 8000 0.396 0.195 4 KS

Run‐off‐road 200 ‐ 8000 0.849 0.155 4 KS

Fatal and injury All 200 ‐ 8000 0.689 0.155 4 KS

Other 200 ‐ 8000 0.331 0.156 3 KS

Cross median 200 ‐ 8000 0.097 0.143 3 KS

Run‐off‐road 200 ‐ 8000 0.45 0.279 3 KS


6777 ‐ 37112 0.71 0.139 3 MO,PA

11539 ‐ 37112 0.75 0.1569 3 MO

4956 ‐ 31692 0.75 0.1311 3 MN,MO,PA

4959 ‐ 31692 0.7 0.1304 3 MN

4956 ‐ 20763 0.58 0.1446 3 MO

8267 ‐ 18753 1.31 0.1079 3 PA

180 ‐ 12776 0.67 0.1222 4 MN,MO,PA

180 ‐ 10386 1.08 0.2138 3 MN

180 ‐ 12776 0.61 0.1556 4 MN,MO,PA

180 ‐ 10386 0.57 0.2066 3 MN

Fatal and injury Run‐off‐road 180 ‐ 92757 0.86 0.0855 3 MN,MO,PA

4956 ‐ 31692 0.96 0.1554 3 MN,MO,PA

4956 ‐ 20763 1.1 0.0508 3 MO

180 ‐ 12776 0.53 0.2339 3 MN,MO,PA

180 ‐ 10386 1.27 0.7837 3 MN

11539 ‐ 37112 0.75 0.1569 3 MO

4956 ‐ 31692 0.34 0.1855 4 MN,MO,PA

4959 ‐ 31692 0.7 0.1304 3 MN

4956 ‐ 20763 0.46 0.1283 3 MO

8267 ‐ 18753 0.52 0.1161 3 PA

180 ‐ 12776 0.57 0.1452 4 MN,MO,PA

180 ‐ 10386 1.11 0.5314 3 MN

Head‐on,Run‐off‐road,Sideswipe 0.34 0.044 3 WA

Head‐on,Sideswipe 0.29 0.046 3 WA

Run‐off‐road 0.384 0.064 3 WA

Incapacitating injury All 0.82 4 notusa

AllCross median,Frontal and opposing direction

sideswipe,Head‐on,Run‐off‐road0.79 4 notusa

All 1.01 0.02 4 FL

Rear‐end 0.99 0.03 4 FL

Incapacitating injury All 0.95 0.05 4 FL

Resurface pavement with groove pavement (GP) All All Wet road 0.5 0.19 3 CA

Resurface pavement with open‐graded asphalt

concrete (OGAC)All All Wet road 0.59 0.16 3 CA

Install centerline rumble strips on tangent sections

Install football shaped centerline rumble strips

Install edgeline rumble strips

Install edgeline rumble strips on roadways with a

shoulder width less than 5 feet

Install edgeline rumble strips on roadways with a

shoulder width of 5 feet or greater

Install centerline and shoulder rumble strips

Resurface pavement

Install rectangular shaped centerline rumble strips

Rural

Rural

Rural

Rural

Rural Fatal and injury Run‐off‐road

RuralAll

All

All

All


Fatal and injury Run‐off‐road

Fatal and injury

All

Head‐on,Sideswipe

All

All



CMF Star Quality

Rating

Change bridge width (bridge minus roadway width)

from X to YAll All Eqn. 14‐4 3 IA

Changing pavement macrotexture from X to Y Rural All All 2090 ‐ 11500 Eqn. 14‐5 3 NC

Change roadway surface from gravel or dirt to

asphaltRural All All 35 ‐ 1468 Eqn. 14‐6 3 WY

All All 0.95 0.04 3 MN

1.06 3 MN

0.96 3 MN

PDO All 0.89 3 MN

Presence of two‐lane roadway vs. greater than two‐

lane roadwayUrban All All 0.43 0.18 3 IA

All Incapacitating injury All 4‐leg intersection 0.745 0.121 4 IA,MN

Minor arterial 1.223 0.142 4 IA,MN

4‐leg intersection 1.066 0.104 4 IA,MN


3‐leg intersection 0.798 0.32 3 IA

4‐leg intersection 0.819 0.232 3 IA

3‐leg,4‐leg intersection 0.818 0.191 3 IA

3‐leg intersection 0.671 0.278 3 MN

4‐leg intersection 1.357 0.447 3 MN

3‐leg,4‐leg intersection 1.182 0.316 3 MN


3‐leg,4‐leg intersection 0.785 0.107 4 IA,MN






PDO All 4‐leg intersection 1.138 0.121 4 IA,MN

Change proportion of 1‐lane roadways to total

roadway length from X to YUrban Incapacitating injury Vehicle/pedestrian Eqn. 14‐7 3 NY





Change proportion of primary roadway (without

access restriction) to total roadway length from X to

Y

Urban Incapacitating injury Vehicle/pedestrian Eqn. 14‐10 3 NY

Change proportion or primary roadway (with

limited access) to total roadway length from X to YUrban Incapacitating injury Vehicle/pedestrian Eqn. 14‐11 3 NY

Change proportion of length of roads with widths

less than 30 feet to total roadway length from X to YUrban Incapacitating injury Vehicle/pedestrian Eqn. 14‐12 3 NY

Change proportion of local rural road to total


Change proportion of other throughfare roadway to

total roadway length from X to YUrban Incapacitating injury Vehicle/pedestrian Eqn. 14‐14 3 NY

Increase surface width from X to Y feet All Truck related Travel lanes only Eqn. 14‐15 3 FL

Change travel lane plus sealed shoulder width from

greater than or equal to 3.5m to less than 3.5mRural Fatal and injury Run‐off‐road 1200 ‐ 2400 1.21 3 notusa

Fatal and injury All 1655 ‐ 7031 0.58 0.09 4 TX

Fatal and injury Non‐intersection 1655 ‐ 7031 0.65 0.11 4 TX

Convert High‐Occupancy‐Vehicle (HOV) lanes to

High‐Occupancy‐Toll (HOT) lanes

Install transverse rumble strips on stop controlled

approaches

Install periodic passing lanes on rural two‐lane

highways

Urban

Rural

Minor injury All

Rural

All


Fatal and injury

PDO

All

All

All

All



CMF Star Quality

Rating

All All 25100 ‐ 52500 Eqn. 14‐16 3 FL

Fatal and injury All 25100 ‐ 52500 Eqn. 14‐17 3 FL

PDO All 25100 ‐ 52500 Eqn. 14‐18 3 FL

All All 7480 ‐ 43929 Eqn. 14‐19 3 FL

Fatal and injury All 7480 ‐ 43929 Eqn. 14‐20 3 FL

PDO All 7480 ‐ 43929 Eqn. 14‐21 3 FL

All Relief lanes 1 to 2.9 miles long 0.67 0.149 3 MI

Daytime Relief lanes 1 to 2.9 miles long 0.6 0.132 3 MI

Dry weather Relief lanes 1 to 2.9 miles long 0.53 0.119 3 MI

Head‐on,Rear‐end,Run‐off‐road,Sideswipe Relief lanes 1 to 2.9 miles long 0.53 0.114 3 MI

Summer Relief lanes 1 to 2.9 miles long 0.54 0.151 3 MI

Non‐summer Relief lanes 1 to 2.9 miles long 0.72 0.164 3 MI

Injury All Relief lanes 1 to 2.9 miles long 0.71 0.155 3 MI

All All 0.528 0.016 4 NJ

Fatal and injury All 0.597 0.038 4 NJ

PDO All 0.51 0.017 4 NJ

Convert major road of a signalized T intersection

from two‐way to one‐wayUrban All Motorcycle 0.4 3 notusa

Install transverse rumble strips at pedestrian

crosswalks on rural low‐volume roadsRural All All 0.76 0.33 3

Removing mainline barrier toll plazas on highways

Convert 12‐ft inside and outside lanes to 12‐ft inside

lane and X‐ft outside lane

Convert 12‐ft inside and outside lanes to Y‐ft inside

lane and X‐ft outside lane

Installation of passing relief lane

Urban

Urban

AllRural


Table O. Shoulder Treatments


Value Std. Err

6777 ‐ 37112 1.07 0.0391 4 MO,PA

11539 ‐ 37112 1.08 0.0413 4 MO

6777 ‐ 24752 1 0.118 4 PA

4959 ‐ 20763 1.18 0.078 5 MN,MO,PA

4959 ‐ 7459 1.1 0.1468 4 MN

5326 ‐ 20763 1.22 0.0946 4 MO

9653 ‐ 18753 0.87 0.3564 3 PA

782 ‐ 10386 1.06 0.057 4 MN,MO,PA

782 ‐ 10386 1.14 0.0801 4 MN

861 ‐ 6205 1.4 0.18 4 MO

948 ‐ 9067 0.76 0.0861 4 PA

6777 ‐ 37112 1.01 0.0696 3 MO,PA

11539 ‐ 37112 1.08 0.0717 3 MO

6777 ‐ 34406 1.08 0.1166 3 PA

4956 ‐ 31692 1.2 0.0954 4 MN,MO,PA

4959 ‐ 31692 1.16 0.0918 3 MN

4956 ‐ 20763 1.28 0.1423 3 MO

8267 ‐ 18753 0.81 0.2015 3 PA

180 ‐ 12776 0.86 0.0969 3 MN,MO,PA

180 ‐ 10386 0.96 0.0684 3 MN

861 ‐ 12776 0.83 1.1599 3 MO

910 ‐ 10177 0.76 0.1485 3 PA

6777 ‐ 37112 1.07 0.0781 3 MO,PA

11539 ‐ 37112 1.11 0.0763 3 MO

6777 ‐ 24752 1.06 0.161 3 PA

4956 ‐ 31692 1.28 0.1092 4 MN,MO,PA

4959 ‐ 31692 1.17 0.1367 3 MN

4956 ‐ 20763 1.28 0.1431 3 MO

8267 ‐ 18753 0.74 0.2449 3 PA

180 ‐ 12776 0.94 0.1306 3 MN,MO,PA

180 ‐ 10386 1.18 0.1028 3 MN

861 ‐ 12776 0.85 1.2939 3 MO

910 ‐ 10177 0.76 0.1485 3 PA

0.87 0.08 4 MN

0.66 3 CT

< 65 mph 0.84 3 CT

No shoulder rumble strips between on and off

ramps on freeways.0.66 3 CT

65 mph 0.62 3 CT

6 or more lanes 0.64 3 CT

4 lanes 0.68 3 CT

Undivided 0.74 4 notusa

All 0.78 4 notusa

6777 ‐ 37112 0.9 0.0521 4 MO,PA

11539 ‐ 37112 0.92 0.0571 4 MO

6777 ‐ 24752 0.82 0.1227 4 PA

4959 ‐ 20763 1.4 0.124 5 MN,MO,PA

4959 ‐ 7459 1.38 0.2662 3 MN

5326 ‐ 20763 1.45 0.1479 4 MO

9653 ‐ 17018 0.75 0.3744 3 PA

782 ‐ 10386 0.84 0.0807 5 MN,MO,PA

782 ‐ 10386 1.11 0.1707 4 MN

Install shoulder rumble strips

Rural All

Run‐off‐road

Countermeasures Area Type Crash Severity Crash Type AADT StateStar Quality

RatingNote

CMF

All


Value Std. ErrCountermeasures Area Type Crash Severity Crash Type AADT State

Star Quality

RatingNote

CMF

861 ‐ 6205 1.17 0.2176 3 MO

948 ‐ 9067 0.56 0.0913 4 PA

6777 ‐ 37112 0.9 0.0666 3 MO,PA

11539 ‐ 37112 0.93 0.0686 3 MO

6777 ‐ 34406 0.98 0.1332 3 PA

4956 ‐ 31692 1.41 0.1694 4 MN,MO,PA

4959 ‐ 31692 1.39 0.1653 3 MN

4956 ‐ 20763 1.7 0.2791 3 MO

8267 ‐ 18753 0.77 0.1319 3 PA

180 ‐ 12776 0.71 0.1196 4 MN,MO,PA

180 ‐ 10386 1.19 0.1587 3 MN

861 ‐ 12776 0.91 1.0362 3 MO

910 ‐ 10177 0.55 0.1278 3 PA

6777 ‐ 37112 0.9 0.073 3 MO,PA

11539 ‐ 37112 0.94 0.0727 3 MO

6777 ‐ 24752 0.87 0.1643 3 PA

4956 ‐ 31692 1.66 0.2319 4 MN,MO,PA

4959 ‐ 31692 1.34 0.1314 3 MN

4956 ‐ 20763 1.67 0.276 3 MO

8267 ‐ 18753 0.77 0.1378 3 PA

180 ‐ 12776 0.74 0.1696 3 MN,MO,PA

180 ‐ 10386 1.12 0.2051 3 MN

861 ‐ 12776 0.94 1.0872 3 MO

910 ‐ 10177 0.55 0.1278 3 PA

0.822 0.066 4 notusa

6777 ‐ 37112 0.73 0.0684 5 MO,PA

11539 ‐ 37112 0.74 0.0764 4 MO

6777 ‐ 24752 0.67 0.1516 4 PA

782 ‐ 10386 0.89 0.1254 4 MN,MO,PA

782 ‐ 10386 1.27 0.2671 3 MN

861 ‐ 6205 1.2 0.446 3 MO

948 ‐ 9067 0.62 0.1371 4 PA

6777 ‐ 37112 0.77 0.0867 4 MO,PA

11539 ‐ 37112 0.82 0.1069 3 MO

6777 ‐ 24752 0.72 0.1518 3 PA

180 ‐ 12776 0.76 0.163 3 MN,MO,PA

180 ‐ 10386 1.11 0.2732 3 MN

861 ‐ 12776 1.55 2.1783 3 MO

910 ‐ 10177 0.6 0.1719 3 PA

6777 ‐ 37112 0.78 0.0747 4 MO,PA

11539 ‐ 37112 0.79 0.0872 3 MO

6777 ‐ 34406 0.7 0.1434 3 PA

180 ‐ 12776 0.7 0.1158 4 MN,MO,PA

180 ‐ 10386 1.11 0.1985 3 MN

861 ‐ 12776 1.41 1.948 3 MO

910 ‐ 10177 0.6 0.1719 3 PA


AllRural

Run‐off‐road, Nighttime

Run‐off‐road



Star Quality

RatingNote

CMF

6777 ‐ 37112 0.58 0.0801 5 MO,PA

11539 ‐ 37112 0.58 0.0838 4 MO

6777 ‐ 24752 0.59 0.2697 3 PA

782 ‐ 10386 1.83 0.5841 3 MN,MO,PA

782 ‐ 10386 2.82 1.2629 3 MN

861 ‐ 6205 2.39 1.4201 3 MO

948 ‐ 9067 0.81 0.5752 3 PA

6777 ‐ 37112 0.58 0.1224 4 MO,PA

11539 ‐ 37112 0.59 0.0954 3 MO

6777 ‐ 37112 0.54 0.1015 4 MO,PA

11539 ‐ 37112 0.59 0.0878 3 MO

6777 ‐ 37112 0.82 0.073 5 MO,PA

11539 ‐ 37112 0.77 0.0775 4 MO

6777 ‐ 24752 1.04 0.2002 3 PA

782 ‐ 10386 1.18 0.1538 4 MN,MO,PA

782 ‐ 10386 1.5 0.3023 3 MN

861 ‐ 6205 1.98 0.4914 3 MO

948 ‐ 9067 0.7 0.1642 3 PA

6777 ‐ 37112 0.89 0.1105 3 MO,PA

11539 ‐ 37112 0.86 0.1069 3 MO

6777 ‐ 24752 1.03 0.2908 3 PA

180 ‐ 12776 1.05 0.2378 3 MN,MO,PA

180 ‐ 10386 1.38 0.3518 3 MN

861 ‐ 12776 2.35 2.3699 3 MO

910 ‐ 10177 0.72 0.2082 3 PA

6777 ‐ 37112 0.94 0.1031 3 MO,PA

11539 ‐ 37112 0.85 0.1026 3 MO

6777 ‐ 34406 1.4 0.2554 3 PA

180 ‐ 12776 1.05 0.1523 3 MN,MO,PA

180 ‐ 10386 1.75 0.3079 3 MN

861 ‐ 12776 2.18 2.0885 3 MO

910 ‐ 10177 0.72 0.2082 3 PA

Install shoulder rumble strips AllRural

Run‐off‐road,Truck related

Run‐off‐road,Wet road



Star Quality

RatingNote

CMF

6777 ‐ 37112 0.93 0.059 4 MO,PA

11539 ‐ 37112 0.94 0.0641 4 MO

6777 ‐ 24752 0.87 0.1462 4 PA

4959 ‐ 20763 0.9 0.1022 4 MN,MO,PA

4959 ‐ 7459 0.78 0.1963 3 MN

5326 ‐ 20763 0.95 0.1231 4 MO

9653 ‐ 17018 0.6 0.4252 3 PA

782 ‐ 10386 0.92 0.0804 4 MN,MO,PA

782 ‐ 10386 1.05 0.1266 4 MN

861 ‐ 6205 0.81 0.2182 3 MO

948 ‐ 9067 0.82 0.1159 4 PA

6777 ‐ 37112 0.92 0.0671 3 MO,PA

11539 ‐ 37112 0.97 0.0837 3 MO

6777 ‐ 34406 0.88 0.111 3 PA

4956 ‐ 31692 1.01 0.1082 3 MN,MO,PA

4959 ‐ 31692 1.07 0.1008 3 MN

4956 ‐ 20763 1.05 0.2217 3 MO

8267 ‐ 18753 0.58 0.1638 3 PA

180 ‐ 12776 0.72 0.0862 4 MN,MO,PA

180 ‐ 10386 0.87 0.0839 3 MN

861 ‐ 12776 0.6 0.6339 3 MO

910 ‐ 10177 0.84 0.189 3 PA

6777 ‐ 37112 0.96 0.0842 3 MO,PA

11539 ‐ 37112 0.99 0.0954 3 MO

6777 ‐ 24752 0.91 0.1413 3 PA

4956 ‐ 31692 1.05 0.1788 3 MN,MO,PA

4959 ‐ 31692 0.82 0.1508 3 MN

4956 ‐ 20763 1.02 0.2181 3 MO

8267 ‐ 18753 0.56 0.1704 3 PA

180 ‐ 12776 0.86 0.1156 3 MN,MO,PA

180 ‐ 10386 1.07 0.161 3 MN

861 ‐ 12776 0.65 0.698 3 MO

910 ‐ 10177 0.84 0.189 3 PA

Install shoulder rumble strips Rural Fatal and injury All



Star Quality

RatingNote

CMF

0.82 0.12 3 MN

6777 ‐ 37112 0.83 0.073 5 MO,PA

11539 ‐ 37112 0.84 0.0822 4 MO

6777 ‐ 24752 0.77 0.1571 3 PA

4959 ‐ 20763 0.97 0.1351 4 MN,MO,PA

4959 ‐ 7459 0.9 0.2863 3 MN

5326 ‐ 20763 1 0.1584 4 MO

9653 ‐ 17018 0.8 0.5695 3 PA

782 ‐ 10386 0.64 0.0971 5 MN,MO,PA

782 ‐ 10386 0.68 0.1761 3 MN

861 ‐ 6205 0.55 0.2316 3 MO

948 ‐ 9067 0.63 0.1335 4 PA

6777 ‐ 37112 0.86 0.0732 3 MO,PA

11539 ‐ 37112 0.88 0.0857 3 MO

6777 ‐ 34406 0.87 0.1413 3 PA

4956 ‐ 31692 1.05 0.1444 3 MN,MO,PA

4959 ‐ 31692 1.12 0.1548 3 MN

4956 ‐ 20763 1.19 0.2574 3 MO

180 ‐ 12776 0.63 0.1031 4 MN,MO,PA

180 ‐ 10386 1.04 0.1839 3 MN

861 ‐ 12776 0.41 1.55 3 MO

910 ‐ 10177 0.63 0.1579 3 PA

6777 ‐ 37112 0.82 0.0829 3 MO,PA

11539 ‐ 37112 0.86 0.0959 3 MO

6777 ‐ 24752 0.78 0.1574 3 PA

4956 ‐ 31692 1.15 0.2375 3 MN,MO,PA

4959 ‐ 31692 0.85 0.1645 3 MN

4956 ‐ 20763 1.12 0.2385 3 MO

180 ‐ 12776 0.6 0.1265 4 MN,MO,PA

180 ‐ 10386 0.77 0.2005 3 MN

861 ‐ 12776 0.43 1.8224 3 MO

910 ‐ 10177 0.63 0.1579 3 PA

6777 ‐ 37112 0.91 0.0824 3 MO,PA

11539 ‐ 37112 0.97 0.0811 3 MO

4956 ‐ 31692 1.1 0.1643 3 MN,MO,PA

4959 ‐ 31692 1.23 0.1755 3 MN

4956 ‐ 20763 1.28 0.301 3 MO

8267 ‐ 18753 0.52 0.1957 3 PA

180 ‐ 12776 0.53 0.1378 4 MN,MO,PA

180 ‐ 10386 0.92 0.2406 3 MN

180 ‐ 12776 0.58 0.2026 3 MN,MO,PA

180 ‐ 10386 1.11 0.3931 3 MN

11254 ‐ 59391 0.99 0.0572 4 PA

11254 ‐ 92757 0.96 0.0546 3 PA

11254 ‐ 92757 0.95 0.0569 3 PA

11254 ‐ 59391 0.94 0.0732 4 PA

11254 ‐ 92757 0.96 0.0755 3 PA

11254 ‐ 92757 0.9 0.0964 3 PA

11254 ‐ 59391 0.84 0.0725 4 PA

11254 ‐ 92757 0.91 0.0719 3 PA

11254 ‐ 92757 0.8 0.0778 3 PA

11254 ‐ 59391 0.93 0.0993 4 PA

11254 ‐ 92757 1.02 0.0977 3 PA

11254 ‐ 92757 0.9 0.1158 3 PA

11254 ‐ 92757 1.02 0.0977 3 PA

Fatal and injury

Urban


Fatal and injuryRural

All

Run‐off‐road

All

Run‐off‐road

All

Run‐off‐road



Star Quality

RatingNote

CMF

All Run‐off‐road 0.82 3 notusa

Fatal and injury Run‐off‐road 180 ‐ 92757 1 0.0556 3 MN,MO,PA

0.82 0.12 3

0.21 0.07 4

Injury Run‐off‐road,Single vehicle 0.87 0.21 3

All 2000 ‐ 50000 0.84 0.13 3

2000 ‐ 50000 0.9 0.25 3

0.79 0.18 3

All 2000 ‐ 50000 0.83 0.19 3

2000 ‐ 50000 0.78 0.33 3

0.93 0.28 3

Install shoulder rumble strips on illuminated

highwaysRural All Run‐off‐road 0.59 3 CT

Install shoulder rumble strips on unilluminated

highwaysRural All Run‐off‐road 0.79 3 CT

Urban Fatal and injury Run‐off‐road 11254 ‐ 92757 0.68 0.1431 3 PA

11539 ‐ 37112 0.97 0.0811 3 MO

4956 ‐ 31692 0.52 0.2658 3 MN,MO,PA

4959 ‐ 31692 1.23 0.1755 3 MN

4956 ‐ 20763 1.41 0.2362 3 MO

8267 ‐ 18753 0.22 0.0742 3 PA

180 ‐ 12776 0.46 0.1255 4 MN,MO,PA

180 ‐ 10386 0.92 0.4679 3 MN


180 ‐ 12776 0.35 0.7671 3 MN,MO,PA

180 ‐ 10386 1.21 0.8686 3 MN

6777 ‐ 37112 0.71 0.1393 3 MO,PA

11539 ‐ 37112 0.75 0.1584 3 MO

4956 ‐ 31692 0.74 0.1293 3 MN,MO,PA

4959 ‐ 31692 0.71 0.1291 3 MN

4956 ‐ 20763 0.58 0.1446 3 MO

180 ‐ 12776 0.67 0.123 4 MN,MO,PA

180 ‐ 10386 1.1 0.2196 3 MN


6777 ‐ 37112 0.9 0.1324 3 MO,PA

11539 ‐ 37112 0.49 0.0276 3 MO

4956 ‐ 31692 1.06 0.1431 3 MN,MO,PA

4959 ‐ 31692 1.3 0.1827 3 MN

180 ‐ 12776 0.62 0.149 4 MN,MO,PA

180 ‐ 10386 0.79 0.2406 3 MN

6777 ‐ 37112 0.93 0.0776 3 MO,PA

11539 ‐ 37112 1.02 0.0839 3 MO

4956 ‐ 31692 1.16 0.3059 3 MN,MO,PA

4959 ‐ 31692 0.74 0.1352 3 MN

4956 ‐ 20763 1.28 0.301 3 MO

180 ‐ 12776 0.43 0.276 3 MN,MO,PA

180 ‐ 10386 1.58 0.6656 3 MN

Reduce shoulder width (6 ft to 0 ft) Rural All All 95 ‐ 25844 1.12 0.031 3 PA





UrbanInstall shoulder rumble strips

Install shoulder rumble strips on roadways with a

shoulder width equal to 5 feet

Install shoulder rumble strips on roadways with a

shoulder width less than 5 feet

Install continuous milled‐in shoulder rumble strips


Fatal and injury Run‐off‐roadInstall shoulder rumble strips with an offset of 0‐8

inches relative to the edgeline

Install shoulder rumble strips with an offset of 9‐20


Install shoulder rumble strips with an offset of 21+


All

Rural

All Run‐off‐road,Single vehicle

All

Rural

Rural



Injury

Run‐off‐road,Single vehicle

Run‐off‐road,Single vehicle


Rural



Star Quality

RatingNote

CMF

Decrease inside shoulder width from 10ft to 4ft Urban Fatal and injury All 5700 ‐ 309000 0.446 0.035 3 FL

186 ‐ 15106 1.16 3 ID

186 ‐ 400 1.13 3 ID

186 ‐ 15106 1.15 3 ID

186 ‐ 400 1.11 3 ID

186 ‐ 15106 1.17 3 ID

186 ‐ 400 1.14 3 ID

All All 1.22 4 CA,KY,MN

All Single vehicle 1.17 4 CA,KY,MN

186 ‐ 15106 1.13 3 ID

186 ‐ 400 1.11 3 ID

186 ‐ 15106 1.18 3 ID

186 ‐ 400 1.13 3 ID

186 ‐ 15106 1.07 3 ID

186 ‐ 400 1.09 3 ID

186 ‐ 15106 1.03 3 ID

186 ‐ 400 1.03 3 ID

186 ‐ 15106 1.03 3 ID

186 ‐ 400 1.02 3 ID

186 ‐ 15106 1.02 3 ID

186 ‐ 400 1.03 3 ID

Outside paved shoulder width = 10ft 0.668 0.1 3 FL

Outside paved shoulder width = 8ft 0.749 0.1 3 FL

Fatal and injury All 0.728 0.1 3 FL

Reduce outside paved shoulder width from 10ft to

4ftUrban All All Inside paved shoulder width = 4 ft 0.417 0.1 3 FL

Inside paved shoulder width = 4ft 0.819 0.1 3 FL

5700 ‐ 309000 1.081 0.131 3 FL

Rear‐end 5700 ‐ 309000 1.111 0.17 3 FL


Install curb and gutter Suburban All All 8333 ‐ 57138 0.89 3 NC

Urban All All 4.21 1.2 3 IA

Fatal and injury All 0.517 0.11 3 IA

3500 ‐ 3500 On tangent sections 0.29 3 TX

3500 ‐ 3500 On horizontal curve sections 0.13 3 TX

Widen shoulder width from 6 to 7 ft Rural All All 95 ‐ 25844 1.01 0.044 3 PA



Widen shoulder width from 6 to >9 ft Rural All All 95 ‐ 25844 0.82 0.027 3 PA

Widen shoulder width from 10 to 11 ft Urban Fatal and injury All 5700 ‐ 309000 0.98 0.178 3 FL

Widen shoulder width from 10 to 12 ft Urban Fatal and injury All 5700 ‐ 309000 0.669 0.092 3 FL

Urban Fatal and injury Run‐off‐road 11254 ‐ 92757 Divided with median 0.64 0.1258 3 PA

4956 ‐ 31692 Divided with median 0.47 0.2388 3 MN,MO,PA

4956 ‐ 20763 Divided with median 1.1 0.1964 3 MO

8267 ‐ 18753 Divided with median 0.38 0.125 3 PA

180 ‐ 12776 Undivided 0.73 0.1485 3 MN,MO,PA

180 ‐ 10386 Undivided 1.07 0.5314 3 MN

Widen shoulder width (left shoulder by 1 foot) Fatal and injury All 0.925 0.04 3 IA

Angle Intersection of 2‐lane roads Eqn. 15‐1 3 GA

Sideswipe Intersection of 2‐lane roads Eqn. 15‐2 3 GA

Vehicle/pedestrian Intersection of 2‐lane roads Eqn. 15‐3 3 GA

All Truck related Intersection of 2‐lane roads Eqn. 15‐4 3 FL

Run‐off‐road

Rural All

Rural

Reduce inside paved shoulder width from 4ft to 2ft

Reduce outside paved shoulder width from 10ft to

8ft

Install gravel right shoulder

Widen shoulder width from 0 to 10 feet

Widen shoulder width to 5 feet or greater

Widen paved shoulder width (from X to Y ft)

All

Multiple vehicle

Single vehicle

Rural

Rural

Urban

Fatal and injury

Reduce paved shoulder from 3 ft to 0 ft



All All

Rural All

AllAll

Fatal and injury Run‐off‐road,Single vehicle

All

All

Multiple vehicle

Single vehicle

All

All

Multiple vehicle

Single vehicle

Rural

Urban



Star Quality

RatingNote

CMF

All 0.97 0.07 3

186 ‐ 15106 0.97 3 ID

186 ‐ 400 0.98 3 ID

186 ‐ 15106 0.97 3 ID

186 ‐ 400 0.97 3 ID

186 ‐ 15106 0.95 3 ID

186 ‐ 400 0.94 3 ID

All All 0.94 4 CA,KY,MN

All Single vehicle 0.95 4 CA,KY,MN

All 0.95 0.13 3

186 ‐ 15106 0.95 3 ID

186 ‐ 400 0.94 3 ID

186 ‐ 15106 0.95 3 ID

186 ‐ 400 0.93 3 ID

186 ‐ 15106 0.93 3 ID

186 ‐ 400 0.94 3 ID

All 0.87 4 CA,KY,MN

Single vehicle 0.9 4 CA,KY,MN

All 0.93 0.2 3

186 ‐ 15106 0.93 3 ID

186 ‐ 400 0.93 3 ID

186 ‐ 15106 0.94 3 ID

186 ‐ 400 0.94 3 ID

186 ‐ 15106 0.91 3 ID

186 ‐ 400 0.9 3 ID

All 0.82 4 CA,KY,MN


All 0.9 0.26 3

186 ‐ 15106 0.91 3 ID

186 ‐ 400 0.9 3 ID

186 ‐ 15106 0.89 3 ID

186 ‐ 400 0.88 3 ID

186 ‐ 15106 0.92 3 ID

186 ‐ 400 0.92 3 ID

All 0.76 4 CA,KY,MN


All 0.88 0.32 3

186 ‐ 15106 0.87 3 ID

186 ‐ 400 0.88 3 ID

186 ‐ 15106 0.83 3 ID

186 ‐ 400 0.84 3 ID

186 ‐ 15106 0.9 3 ID

186 ‐ 400 0.91 3 ID

All 0.71 4 CA,KY,MN


Widen inside paved shoulder width from 4ft to 5ft Urban All All Outside paved shoulder width = 10 ft 0.573 0.1 3 FL


Outside paved shoulder width = 10 ft 0.561 0.1 3 FL








Rural All

All

Rural

All

All

All

All

All

All

All

All

All

Multiple vehicle

Widen paved shoulder width (from 3 to 4 ft)





Multiple vehicle

Single vehicle

All

Rural

Rural

Widen inside paved shoulder width from 4ft to 6ft


Widen inside paved shoulder width from 4ft to 10ft Urban

Urban

Urban

Rural

Single vehicle

Multiple vehicle

Single vehicle

All

All

Multiple vehicle

Single vehicle

All

All

All

All

Multiple vehicle

Single vehicle

All

All



Star Quality

RatingNote

CMF


All All Outside paved shoulder width = 10 ft 1.294 0.1 3 FL




Widen outside paved shoulder width from 10ft to

11ft (inside paved shoulder width = 4ft)Urban All All Inside paved shoulder width = 4 ft 1.169 0.1 3 FL

Inside paved shoulder width = 4 ft 0.793 0.1 3 FL

5700 ‐ 309000 0.774 0.095 3 FL

Rear‐end 5700 ‐ 309000 0.816 0.117 3 FL


Change left shoulder width from X to Y (feet) All All Eqn. 15‐5 3 FL

Change right shoulder width from X to Y All All All Eqn. 15‐6 3 FL

65 ‐ 4950 0.71 0.048 3 KS

65 ‐ 4950 0.58 0.054 3 KS

65 ‐ 4950 0.21 0.038 3 KS

65 ‐ 4950 0.23 0.048 3 KS

65 ‐ 4950 0.35 0.051 3 KS

65 ‐ 4950 0.28 0.048 3 KS

380 ‐ 2340 1.114 0.129 4 KS

380 ‐ 2340 Less than or equal to 5 ft (prior condition) 0.861 0.145 4 KS

380 ‐ 2340 Greater than 5 ft (prior condition) 1.42 0.224 4 KS

380 ‐ 2340 0.674 0.163 3 KS

380 ‐ 2340 Less than or equal to 5 ft (prior condition) 0.389 0.13 3 KS


Fatal and injury All 380 ‐ 2340 Greater than 5 ft (prior condition) 0.692 0.17 3 KS

Winter 0.96 0.048 3 KS

Non‐winter 0.95 0.054 3 KS

All 0.96 0.038 3 KS

Shoulder (winter) 0.74 0.094 3 KS

Shoulder (Non‐winter) 0.91 0.12 3 KS

Shoulder (All) 0.82 0.077 3 KS

Winter 0.94 0.094 3 KS


All 0.96 0.074 3 KS

Winter 1 0.051 3 KS


All 0.97 0.041 3 KS




Winter 0.67 0.079 3 KS


All 0.72 0.064 3 KS

Winter 0.95 0.066 3 KS


All 0.89 0.051 3 KS




Winter 0.58 0.102 3 KS


All 0.64 0.082 3 KS

Rural

Rural

All

All

Head‐on,Run‐off‐road,Sideswipe

All All

Upgrade unpaved or non‐existent shoulders to

composite shoulders

Convert a 2 ft. turf shoulder to a 3 ft. turf shoulder

Convert a 2 ft. turf shoulder to a 4 ft. turf shoulder

Convert a 2 ft. turf shoulder to a 6 ft. turf shoulder Rural

Upgrade narrow unpaved shoulder (< 5 ft) to wide

unpaved shoulder (> 5 ft)



Widen outside paved shoulder width from 10ft to

12ft (inside paved shoulder width = 4ft)

Rural

Fatal and injury

Urban

Urban

Urban

Rural

All

Fatal and injury

All

Fatal and injury

All

All

Fatal and injury

AllAll

All

All

Head‐on,Run‐off‐road,Sideswipe



Star Quality

RatingNote

CMF

Winter 0.8 0.064 3 KS


All 0.83 0.051 3 KS




Winter 0.58 0.105 3 KS


All 0.58 0.077 3 KS

Winter 1 0.061 3 KS


All 0.93 0.048 3 KS




Winter 0.65 0.087 3 KS


All 0.61 0.066 3 KS

Winter 1.01 0.043 3 KS


All 0.95 0.033 3 KS




Winter 0.48 0.048 3 KS


All 0.53 0.043 3 KS

Winter 1.06 0.051 3 KS


All 0.96 0.038 3 KS




Winter 0.66 0.064 3 KS


All 0.63 0.051 3 KS

Winter 0.84 0.038 3 KS


All 0.79 0.033 3 KS




Winter 0.46 0.046 3 KS


All 0.44 0.038 3 KS

Winter 0.83 0.056 3 KS


All 0.76 0.046 3 KS




Winter 0.6 0.084 3 KS


All 0.53 0.064 3 KS

Rural

Rural

Convert a 2 ft. turf shoulder to an 8 ft. composite

shoulder (first 3 ft. bituminous with remainder turf)

Convert a 2 ft. turf shoulder to a 10 ft. composite



shoulder (first 3 ft. bituminous with remainder

aggregate)

Convert a 2 ft. turf shoulder to a 10 ft. paved

shoulder (bituminous base)

Convert a 2 ft. turf shoulder to a 10 ft. paved

shoulder (Portland cement concrete)



Rural

Rural

Rural

Rural

Fatal and injury

All

All

Fatal and injury

All

Fatal and injury

All

Fatal and injury

Fatal and injury

All

Fatal and injury

All



Star Quality

RatingNote

CMF

All 0.81 0.2 3

Run‐off‐road 0.87 0.24 3

All All 18800 ‐ 291000 0.81 0.04 3 FL


All All 0.81 0.09 4


PDO All 0.78 0.12 4

397 ‐ 18697 0.923 0.096 4 GA

310 ‐ 15000 0.886 0.085 4 GA

310 ‐ 18697 0.932 0.065 4 GA

1170 ‐ 14662 0.845 0.144 4 IN

376 ‐ 13615 1.269 0.24 3 IN

376 ‐ 14662 1.002 0.126 4 IN

397 ‐ 18697 0.905 0.08 4 GA,IN

310 ‐ 15000 0.935 0.079 4 GA,IN

310 ‐ 18697 0.943 0.057 4 GA,IN

397 ‐ 18697 0.897 0.094 3 GA

310 ‐ 15000 0.909 0.087 4 GA

310 ‐ 18697 0.934 0.065 4 GA

1170 ‐ 14662 0.912 0.159 3 IN

376 ‐ 13615 1.796 0.34 3 IN

376 ‐ 14662 1.197 0.154 3 IN

397 ‐ 18697 0.874 0.078 3 GA,IN

310 ‐ 15000 0.955 0.082 4 GA,IN

310 ‐ 18697 0.944 0.057 4 GA,IN

397 ‐ 18697 0.863 0.09 4 GA

310 ‐ 15000 0.909 0.087 4 GA

310 ‐ 18697 0.921 0.064 4 GA

1170 ‐ 14662 0.918 0.158 3 IN

376 ‐ 13615 1.469 0.278 3 IN

376 ‐ 14662 1.135 0.144 3 IN

397 ‐ 18697 0.858 0.076 4 GA,IN

310 ‐ 15000 0.952 0.081 4 GA,IN

310 ‐ 18697 0.937 0.057 4 GA,IN

397 ‐ 18697 0.89 0.138 4 GA

310 ‐ 15000 1.156 0.177 4 GA

310 ‐ 18697 1.06 0.115 4 GA

1170 ‐ 14662 0.55 0.215 3 IN

376 ‐ 13615 0.565 0.261 3 IN

376 ‐ 14662 0.591 0.172 3 IN

397 ‐ 18697 0.835 0.119 4 GA,IN

310 ‐ 15000 1.064 0.151 4 GA,IN

310 ‐ 18697 0.983 0.098 4 GA,IN

397 ‐ 18697 0.849 0.134 3 GA

310 ‐ 15000 1.184 0.182 3 GA

310 ‐ 18697 1.052 0.114 4 GA

1170 ‐ 14662 0.575 0.229 3 IN

376 ‐ 13615 0.615 0.287 3 IN

376 ‐ 14662 0.63 0.186 3 IN

397 ‐ 18697 0.784 0.115 4 GA,IN

130 ‐ 15000 1.052 0.152 3 GA,IN

310 ‐ 18697 0.953 0.097 4 GA,IN

Rural

Implement shoulder widening in conjunction with

shoulder rumble strip installation on freeways

Installation of safety edge treatment

Paved right shoulder vs. other right shoulder type

on freeway ramp

Pave a 3 to 4 ft sod shoulder

Rural

All

Other

All

All

Run‐off‐road

OtherAll

Fatal and injury



Star Quality

RatingNote

CMF

397 ‐ 18697 0.808 0.127 3 GA

310 ‐ 15000 1.181 0.181 3 GA

310 ‐ 18697 1.036 0.112 4 GA

1170 ‐ 14662 0.537 0.206 3 IN

376 ‐ 13615 1.125 0.511 3 IN

376 ‐ 14662 0.836 0.24 3 IN

397 ‐ 18697 0.769 0.111 4 GA,IN

310 ‐ 15000 1.2 0.171 3 GA,IN

310 ‐ 18697 1.026 0.102 4 GA,IN

397 ‐ 18697 0.974 0.152 4 GA

310 ‐ 15000 0.757 0.101 4 GA

310 ‐ 18697 0.868 0.086 4 GA

1170 ‐ 14662 0.934 0.184 4 IN

376 ‐ 13615 1.509 0.335 3 IN

376 ‐ 14662 1.129 0.165 4 IN

397 ‐ 18697 0.962 0.116 4 GA,IN

310 ‐ 15000 0.872 0.099 4 GA,IN

310 ‐ 18697 0.929 0.076 4 GA,IN

397 ‐ 18697 0.975 0.152 3 GA

310 ‐ 15000 0.794 0.105 3 GA

310 ‐ 18697 0.892 0.088 3 GA

1170 ‐ 14662 1.026 0.203 3 IN

376 ‐ 13615 2.317 0.503 3 IN

376 ‐ 14662 1.41 0.206 3 IN

397 ‐ 18697 0.947 0.115 3 GA,IN

310 ‐ 15000 0.921 0.104 3 GA,IN

310 ‐ 18697 0.956 0.078 4 GA,IN

397 ‐ 18697 0.948 0.145 3 GA

310 ‐ 15000 0.798 0.105 3 GA

310 ‐ 18697 0.885 0.087 4 GA

1170 ‐ 14662 1.035 0.213 3 IN

376 ‐ 13615 1.312 0.304 3 IN

376 ‐ 14662 1.129 0.174 3 IN

397 ‐ 18697 0.926 0.112 4 GA,IN

310 ‐ 15000 0.84 0.096 4 GA,IN

310 ‐ 18697 0.898 0.074 4 GA,IN

Installation of safety edge treatment Rural

PDO

Run‐off‐road

All

Other

Run‐off‐road

Fatal and injury


Table P. Signs


Value Std. Err

7400 ‐ 13975 0.606 0.07 4 notusa

7400 ‐ 13975 0.607 0.08 3 notusa

7400 ‐ 13975 0.672 0.1 3 notusa

7400 ‐ 13975 Radius ≤ 300 m 0.478 0.08 3 notusa

7400 ‐ 13975 0.575 0.11 3 notusa

7400 ‐ 13975 0.42 0.1 3 notusa

7400 ‐ 13975 Radius > 300 m 0.746 0.11 3 notusa

7400 ‐ 13975 0.976 0.18 3 notusa

7400 ‐ 13975 Deflection Angle ≤ 60 gon 0.757 0.12 3 notusa

7400 ‐ 13975 0.638 0.12 3 notusa

7400 ‐ 13975 Deflection Angle > 60 gon 0.49 0.08 3 notusa

7400 ‐ 13975 0.577 0.1 3 notusa

7400 ‐ 13975 0.469 0.1 3 notusa

7400 ‐ 13975 0.524 0.09 3 notusa

7400 ‐ 13975 0.477 0.11 3 notusa

Angle 7400 ‐ 13975 0.635 0.11 3 notusa

7400 ‐ 13975 0.72 0.22 3 notusa

7400 ‐ 13975 0.533 0.19 3 notusa

7400 ‐ 13975 0.715 0.17 3 notusa

7400 ‐ 13975 0.616 0.2 3 notusa

Daytime 7400 ‐ 13975 0.627 0.11 3 notusa

7400 ‐ 13975 0.592 0.12 3 notusa

7400 ‐ 13975 Radius ≤ 300 m 0.21 0.09 3 notusa


7400 ‐ 13975 0.231 0.09 3 notusa

7400 ‐ 13975 0.585 0.07 4 notusa

7400 ‐ 13975 Radius ≤ 300 m 0.445 0.08 3 notusa

7400 ‐ 13975 Radius > 300 m 0.728 0.11 3 notusa



7400 ‐ 13975 0.518 0.1 3 notusa

7400 ‐ 13975

All Treatment Sites Except Site 3, Which

Showed Abnormal Proportion of Wet Road

Crashes in the After Period

0.529 0.09 3 notusa

7400 ‐ 13975 Radius ≤ 300 m 0.535 0.12 3 notusa

7400 ‐ 13975 Radius > 300 m 0.511 0.12 3 notusa



7400 ‐ 13975 0.564 0.13 3 notusa

7400 ‐ 13975

All Treatment Sites Except Site 3, Which

Showed Abnormal Proportion of Wet Road

Crashes in the After Period

0.809 0.14 3 notusa

7400 ‐ 13975 Radius ≤ 300 m 0.608 0.14 3 notusa


7400 ‐ 13975 0.618 0.14 3 notusa

7400 ‐ 13975 0.438 0.11 3 notusa

7400 ‐ 13975 0.51 0.07 3 notusa

7400 ‐ 13975 Radius ≤ 300 m 0.381 0.09 3 notusa

7400 ‐ 13975 Radius > 300 m 0.612 0.11 3 notusa



Run‐off‐road

Wet road

All

Fatal and injury

PDO All

All

All

StateNoteCMF Star Quality

RatingCrash Severity Crash Type AADT

Angle, Fixed object,Head‐on,Rear‐end,Rear

to rear,Sideswipe,Single vehicle

Angle, Fixed object,Frontal and opposing

direction sideswipe,Head‐on,Rear‐end,Rear

to rear,Sideswipe,Single vehicle

Nighttime

Countermeasures Area Type

Install a combination of chevron signs, curve

warning signs, and/or sequential flashing beaconsAll


Value Std. ErrStateNote

CMF Star Quality

RatingCrash Severity Crash Type AADTCountermeasures Area Type


PDO All 0.93 0.06 3


PDO All 0.71 0.23 3

All All Wet road 7400 ‐ 9746 0.406 0.22 3 notusa

Head‐on,Nighttime,Non‐intersection,Run‐off‐

road,Sideswipe261 ‐ 14790 0.78 0.101 4 WA

Head‐on,Non‐intersection,Run‐off‐

road,Sideswipe261 ‐ 14790 0.94 0.088 4 WA

Nighttime,Non‐intersection 261 ‐ 14790 0.75 0.095 4 WA

Non‐intersection 261 ‐ 14790 0.96 0.089 4 WA

Fatal and injury Non‐intersection 261 ‐ 14790 0.84 0.104 4 WA

All All 7400 ‐ 9746 0.63 0.22 3 notusa

10434 ‐ 13975 0.592 0.1 3 notusa

10434 ‐ 13975 0.694 0.16 3 notusa

Daytime 10434 ‐ 13975 0.556 0.12 3 notusa

Nighttime 10434 ‐ 13975 0.66 0.19 3 notusa

Run‐off‐road 10434 ‐ 13975 0.564 0.1 3 notusa

Wet road 10434 ‐ 13975 0.489 0.12 3 notusa

PDO All 10434 ‐ 13975 0.464 0.1 3 notusa

Install drowsy driving signs All Drowsy driving crashes 0.371 0.199 3 UT

Head‐on,Nighttime,Non‐intersection,Run‐off‐

road,Sideswipe895 ‐ 20479 0.66 0.115 4 CT

Head‐on,Non‐intersection,Run‐off‐

road,Sideswipe895 ‐ 20479 0.82 0.084 4 CT

Nighttime,Non‐intersection 895 ‐ 20479 0.65 0.105 3 CT

Non‐intersection 895 ‐ 20479 0.82 0.077 4 CT

Fatal and injury Non‐intersection 895 ‐ 20479 0.75 0.127 4 CT

0.984 0.018 4 AZ,MA,WI

1.01 0.049 3 AZ,MA,WI

Rear‐end 1.01 0.028 4 AZ,MA,WI

Sideswipe 0.897 0.054 4 AZ,MA,WI

Fatal and injury All 0.99 0.031 4 AZ,MA,WI

All 0.68 0.076 4 NC



All 0.75 0.115 3 NC


All 1.06 0.098 3 NC


Incapacitating injury All 0.61 0.236 3 NC


All 0.95 0.084 3 NC

Angle,Head‐on,Left‐turn,Right‐turn 1 0.096 3 NC


All

All

All

All

All

All

All

All

All

All

All

Rural

All

Rural

Urban

Install a "Vehicles Entering When Flashing" (VEWF)

system (overhead signs at intersection on major and

loops on minor)


system (overhead signs at intersection on minor and

loops on major)

Install new fluorescent curve signs or upgrade

existing curve signs to fluorescent sheeting

Advance street name signs


system (advance post mounted signs on major and

loops on minor)

All

All

All


system (combination of overhead and advance post

Install signs to conform to MUTCD

Install combination horizontal alignment/ advisory

speed signs

Install chevron signs on horizontal curves

Install chevron signs and curve warning signs


Table Q. Speed Management


Value Std. Err

All All 0.68 0.08 4

0.67 0.09 4

0.67 0.09 4

0 ‐ 30000 0.89 0.05 5

0.82 0.12 3

5000 ‐ 30000 0.94 0.06 3

0.75 0.19 3

0 ‐ 30000 0.95 0.2 3

0.94 0.1 3

5000 ‐ 30000 0.97 0.2 3

All All 0.66 0.11 4


0.6 0.16 4

0.5 0.13 4

Adjacent to roads with speed humps Urban/suburban Injury All 0.95 0.06 3


Injury All All 0.93 0.03 5

PDO All All 0.95 0.04 3



PDO All All 0.9 0.08 3



PDO All All 0.85 0.12 3



PDO All All 1.05 0.04 3

Minor injury Speed 0.48 0.24 4

Serious injury Speed 0.26 0.28 3

Injury Speed 0.43 0.19 4

0.53 0.3 3

0.34 0.18 4

0.55 0.33 3

Speed,Wet road 0.32 0.23 4

Change 85th percentile speed from X to Y Rural All All 35 ‐ 1468 Eqn. 17‐1 3 WY

Change freeway speed limit from X to Y mph Incapacitating injury All 18800 ‐ 291000 Eqn. 17‐2 3 FL

All 1.01 3

AZ,CA,CO,CT,DE,ID,IL,IN,M

E,MD,MA,MI,MS,NE,NJ,NM

,OH,OK,TN,TX,VA,WV

Fatal and Injury 1.02 3



,OH,OK,TN,TX,VA,WV

Lower posted speed by 5 mph All All All 1.17 3



,OH,OK,TN,TX,VA,WV

Lower posted speed by 10 mph All All All 0.96 3



,OH,OK,TN,TX,VA,WV

Lower posted speed by 15‐20 mph All All All 0.94 3



,OH,OK,TN,TX,VA,WV

All 3100 ‐ 50300 0.8553 0.0792 4 notusa

Speed 3100 ‐ 50300 0.9123 0.161 4 notusa

Incapacitating injury All 3100 ‐ 50300 1.0358 0.1717 4 notusa

Minor injury All 3100 ‐ 50300 0.7915 0.086 4 notusa

Injury

PDO All

All

Install transverse rumble strips as traffic calming

device


Rating

All

Injury All

AADT

All

All

Speed

All

All

All

Crash Severity Crash TypeCountermeasures Area Type

Urban/suburban

Urban/suburban

All

Area‐wide or corridor‐specific traffic calming Urban

Install speed humps

5% reduction in mean speed



5% increase in mean speed

Lower posted speed from 100 km/h to 80 km.hr

Transverse bar pavement marking at roundabout

approaches

Lower posted speed


Fatal Non‐intersection 146 ‐ 4512 0.82 3 notusa

Fatal All 0.76 3 notusa

Fatal Fixed object 146 ‐ 4512 0.69 3 notusa

All 0.56 3 notusa

Angle 0.53 3 notusa

0.91 0.079 3 notusa

0.94 0.13 3 notusa

Non‐intersection 0.64 0.11 3 notusa

0.95 0.038 3 notusa

1.11 0.054 3 notusa

Non‐intersection 0.89 0.056 3 notusa

All 0.9 4



,OH,OK,TN,TX,VA,WV

Fatal and Injury 0.97 3



,OH,OK,TN,TX,VA,WV

Raise posted speed by 5 mph All All All 0.92 3



,OH,OK,TN,TX,VA,WV

Raise posted speed by 10 or 15 mph All All All 0.85 3



,OH,OK,TN,TX,VA,WV

Urban/suburban All Rear‐end Eqn. 17‐3 3 IN

All Truck related Eqn. 17‐4 3 FL

Raise posted speed limit of major road of a 4‐leg

signalized intersection from less than 50 km/h to

greater than or equal to 50 km/h

Urban All Motorcycle 2.19 3 notusa

Raise posted speed limit of minor road of a

signalized 3‐leg intersection from less than 50 km/h

to greater than or equal to 50 km/h

Urban All Motorcycle 3.57 3 notusa

Installation of fixed speed cameras Urban All All 0.7 0.0459 3 notusa

Change mean speed (km/hr) Rural Fatal and injury All 0 ‐ 1000 Eqn. 17‐5 3 notusa

Implement speed limit of 50 mph or greater Urban All All 2.27 0.7 3 IA

Install variable speed limit signs Urban All All 0.92 4 MO

Install 10 mph differential speed limit on rural

Interstate HighwaysRural All All,Truck related 0.914 0.051 3 ID

Raise posted speed limit from X to Y mph

All

Fatal

Incapacitating injuryAll

Minor injuryAll

All

Rural

Rural

Urban

Lower posted speed from 80 km/h to 60 km/h at

intersections

Lower posted speed from 90 km/h to 70 km/h

Raise posted speed

Lower posted speed from 80 km/h to 60 km/h


Table R. Transit


Value Std. Err

1.32 0.049 3 notusa

1.28 0.062 3 notusa

1.52 0.201 3 notusa

1.26 0.146 3 notusa

Presence of far‐side transit stop location (transit‐

related crashes)Urban All All 0.55 0.066 3 notusa

1.85 0.205 3 notusa

1.38 0.146 3 notusa

1.32 0.05 3 notusa

1.31 0.049 3 notusa

1.73 0.09 3 notusa

1.67 0.087 3 notusa

1.23 0.046 3 notusa

1.24 0.046 3 notusa

Use of bus as public transit type rather than

streetcar (transit‐related crashes)Urban All All 0.55 0.093 3 notusa


streetcar (transit‐serviced locations)Urban All All 0.87 0.034 3 notusa


Rating

All All

All

All

All

All

All

All

All

All

Urban

Urban

Urban

Urban

Urban


Install transit signal priority (TSP) technology (at

transit‐serviced locations)

Install transit signal priority (TSP) technology (transit‐

related crashes)

Presence of near‐side transit stop location (transit‐

related crashes)

Presence of transit service


streetcar


Table S. Work Zones


Value Std. Err

0 ‐ 50000 1.77 0.12 4

50000 ‐ 100000 1.26 0.19 3

> 100000 1.65 0.18 4

All 1.66 0.09 4

0 ‐ 50000 1.53 0.18 4

50000 ‐ 100000 1.57 0.12 4

> 100000 1.65 0.09 4

All 1.61 0.07 4

0 ‐ 50000 1.6 0.18 4

50000 ‐ 100000 1.12 0.29 3

> 100000 1.26 0.27 3

All 1.46 0.13 4

0 ‐ 50000 1.32 0.27 3

50000 ‐ 100000 1.34 0.18 3

> 100000 1.49 0.14 4

All 1.42 0.1 4

0 ‐ 50000 1.9 0.15 4

50000 ‐ 100000 1.34 0.26 3

> 100000 1.87 0.24 4

All 1.81 0.12 4

0 ‐ 50000 1.63 0.23 4

50000 ‐ 100000 1.71 0.16 4

> 100000 1.8 0.12 4

All 1.75 0.09 4

0 ‐ 50000 1.39 0.15 4

50000 ‐ 100000 1.32 0.05 4

> 100000 1.3 0.04 5

All 1.31 0.03 5

50000 ‐ 100000 1.29 0.25 3

> 100000 1.8 0.26 3

All 1.58 0.18 4

0 ‐ 50000 1.45 0.26 3

50000 ‐ 100000 1.19 0.07 4

> 100000 1.13 0.07 3

All 1.17 0.05 4

50000 ‐ 100000 1.34 0.41 3

> 100000 1.4 0.38 3

All 1.41 0.27 3

0 ‐ 50000 1.37 0.18 3

50000 ‐ 100000 1.41 0.07 4

> 100000 1.39 0.05 4

All 1.4 0.04 5

50000 ‐ 100000 1.23 0.3 3

> 100000 2.04 0.35 3

All 1.67 0.23 4


Rating

All

All

Nighttime

Injury

PDO

All

Nighttime

Nighttime

All

All

All

Nighttime

Injury

PDO

All

Nighttime

All

Nighttime


Active work with no lane closure (compared to no

work zone)

Active work with temporary lane closure (compared

to no work zone)


Value Std. ErrStateNote

CMF Star Quality

RatingCountermeasures Area Type Crash Severity Crash Type AADT

0 ‐ 50000 1.21 0.05 5

50000 ‐ 100000 1.04 0.03 3

> 100000 1.16 0.02 5

All 1.13 0.02 5

0 ‐ 50000 1.09 0.06 3

50000 ‐ 100000 1.24 0.06 4

> 100000 1.3 0.05 4

All 1.24 0.03 5

0 ‐ 50000 1.11 0.07 3

50000 ‐ 100000 0.94 0.05 3

> 100000 1.05 0.04 3

All 1.02 0.03 3

0 ‐ 50000 1.05 0.1 3

50000 ‐ 100000 1.14 0.09 3

> 100000 1.11 0.08 3

All 1.11 0.05 4

0 ‐ 50000 1.27 0.06 4

50000 ‐ 100000 1.1 0.04 5

> 100000 1.23 0.03 5

All 1.2 0.02 5

0 ‐ 50000 1.13 0.08 3

50000 ‐ 100000 1.31 0.08 4

> 100000 1.46 0.07 4

All 1.33 0.05 5

TLTWO (two way traffic operations ‐ crossover

closures) in work zonesAll All 1 0.35 3

Implement mobile automated speed enforcement

system (highly enforced sites)All All 0.863 0.026 3 NC

Increasing the outside shoulder width inside the

work zone by one footUrban All All 0.948 0.01 3 IN

Increasing the inside shoulder width inside the work

zone by one footUrban All All 0.97 0.01 3 IN

All

Injury

PDO

All

Nighttime

All

Nighttime

Nighttime

All

No active with no lane closure (compared to no

work zone)


Table T. CMF Equations


Equation Number Equation X Y

1 ‐ 1 e^(0.0232(Y‐X)) Driveway density (Before) Driveway density (After)














1 ‐ 15 e^(0.0492(Y‐X)) Freeway on‐ramp density (Before) Freeway on‐ramp density (After)





1 ‐ 20 e^(‐0.1276(Y‐X)) Signal spacing /1000 ft (Before) Signal spacing /1000 ft (After)


1 ‐ 22 e^(0.0977(Y‐X)) Signal spacing /1000 ft (Before) Signal spacing /1000 ft (After)





1 ‐ 27 e^(0.0126(Y‐X)) Number of unsignalized cross road per mile (Before) Number of unsignalized cross road per mile (After)







1 ‐ 34 e^(0.0481(Y‐X)) Median opening density (Before) Median opening density (After)





1 ‐ 39 e^(‐0.0803(Y‐X))

The natural log of the upstream distance to the

nearest signalized intersection from an unsignalized 3‐

leg intersection (Before)

The natural log of the upstream distance to the

nearest signalized intersection from an unsignalized

3‐leg intersection (After)

1 ‐ 40 e^(‐0.0345(Y‐X))

The natural log of the downstream distance to the






Access Management



1 ‐ 41 e^(‐0.4815(Y‐X))







1 ‐ 42 e^(‐0.0033(Y‐X)) Number of 3‐leg intersections (Before) number of 3‐leg intersections (After)

1 ‐ 43 e^(0.0000(Y‐X)) Number of 3‐leg intersections (Before) number of 3‐leg intersections (After)













3 ‐ 1 e^(0.05084(Y‐X)) Horizontal curvature (Before) Horizontal curvature (After)


3 ‐ 3 e^(0.169(log(Y‐X))) Horizontal curvature (Before) Horizontal curvature (After)


3 ‐ 5 e^(0.1096(Y‐X)) Degree of curve on freeways (Before) Degree of curve on freeways (After)

3 ‐ 6 e^(0.1208(Y‐X)) Degree of curve on freeways (Before) Degree of curve on freeways (After)

3 ‐ 7 e^(0.0432(Y^2)‐0.5870(Y))/e^(0.0432(X^2)‐0.5870(X)) Number of horizontal curves per mile (Before) Number of horizontal curves per mile (After)

3 ‐ 8 e^(0.066(Y‐X)) Maximum gradient (Before) Maximum gradient (After)

Equation Number Equation

3 ‐ 9 e^[0.044G+0.19ln(2*5730/R)+4.52(1/R)(1/Lc)]G = Absolute value of percent grade

(0 percent for level tangents; ≥ 1 percent otherwise)

Lc = Horizontal curve length (mi)

(not applicable for tangents)

R= Curve radius (ft)

(missing for tangents)

3 ‐ 10 e^[0.040G+0.13ln(2*(5730/R)+3.80(1/R)(1/Lc)]G = Absolute value of percent grade


Lc = Horizontal curve length (mi)

(not applicable for tangents)

R= Curve radius (ft)


3 ‐ 11 e^[0.044G]G = Absolute value of percent grade


3 ‐ 12 e^[0.040G]G = Absolute value of percent grade


3 ‐ 13 e^(0.0088(5730/R)Lvc/K)

K = Lvc/A; not applicable for level tangents

A=|G1 ‐ G2| (%)

G1= initial grade (%), G2= final grade (%)

Lvc = Vertical curve length (ft)R= Curve radius (ft)


3 ‐ 14 e^(0.0046(5730/R)Lvc/K)


A=|G1 ‐ G2| (%)




3 ‐ 15 e^[10.51*1/K+0.011*(5730/R)*Lvc/K]


A=|G1 ‐ G2| (%)




3 ‐ 16 e^[8.62*1/K+0.010*(5730/R)*Lvc/K]


A=|G1 ‐ G2| (%)




Alignment



3 ‐ 17 e^[10.51*1/K]K = Lvc/A; not applicable for level tangents

3 ‐ 18 e^[8.62*1/K]


A=|G1 ‐ G2| (%)


3 ‐ 19 e^[0.20*ln(2*5730/R)]R= Curve radius (ft)






3 ‐ 22 e^[0.022*ln(2*5730/R)*A]R= Curve radius (ft)


A=|G1 ‐ G2| (%),


3 ‐ 23 e^(0.1837*(V^2)/y) / e^(0.1837*(V^2)/X) X and Y= Horizontal curve radius (ft) V= Speed limit minimum of 55mph


5 ‐ 1 e^(‐0.0021(Y‐X))Pavement marking retroreflectivity (mcd/m^2/lux)

(Before)

Pavement marking retroreflectivity (mcd/m^2/lux)

(After)

5 ‐ 2 e^(‐0.004(Y‐X))Pavement marking retroreflectivity of white

edgelines (mcd/m^2/lux) (Before)

Pavement marking retroreflectivity of white

edgelines (mcd/m^2/lux) (After)

5 ‐ 3 e^(‐0.001(Y‐X))Pavement marking retroreflectivity of white


Pavement marking retroreflectivity of white


5 ‐ 4 e^(‐0.002(Y‐X))Pavement marking retroreflectivity of white skiplines

(mcd/m^2/lux) (Before)

Pavement marking retroreflectivity of white skiplines

(mcd/m^2/lux) (After)

5 ‐ 5 e^(‐0.007(Y‐X))Pavement marking retroreflectivity of yellow

centerlines (mcd/m^2/lux) (Before)

Pavement marking retroreflectivity of yellow

centerlines (mcd/m^2/lux) (After)

5 ‐ 6 e^(0.007(Y‐X))Pavement marking retroreflectivity of yellow


Pavement marking retroreflectivity of yellow



7 ‐ 1 e^(2.198(Y‐X)) Length of deceleration lane (miles) (Before) Length of deceleration lane (miles) (After)

7 ‐ 2 e^(‐0.547(Y‐X)) Number of lanes on freeway exit ramp (Before) Number of lanes on freeway exit ramp (After)





7 ‐ 7 100*(1‐e^(0.551(Y‐X))) Number of lanes on freeway exit ramp (Before) Number of lanes on freeway exit ramp (After)

7 ‐ 8 100*(1‐e^(0.014308(Y‐X)))Spacing distance between two ramp terminals at

diamond interchange (Before)

Spacing distance between two ramp terminals at

diamond interchange (After)









Delineation

Interchange design



8 ‐ 1 e^(0.7785(Y‐X)) Number of left‐turn lanes (Before) Number of left‐turn lanes (After)

8 ‐ 2 e^(0.3495(Y‐X)) Number of left‐turn lanes (Before) Number of left‐turn lanes (After)

8 ‐ 3 e^(0.125(Y‐X)) Number of lanes (Before) Number of lanes (After)



8 ‐ 6 100*(1‐e^(‐0.003(Y‐X))) Number of 3‐leg intersections (Before) Number of 3‐leg intersections (After)

8 ‐ 7 100*(1‐e^(‐0.033(Y‐X))) Number of 5‐leg intersections (Before) Number of 5‐leg intersections (After)


9 ‐ 1e^(‐

5.5172+0.6322*AADT+0.1103*Trains+0.0891*MaxSpeed)Trains = number of trains per day Maxspeed= maximum timetable speed (mph)

9 ‐ 2 e^(‐4.6330+0.1346*Trains) Trains = number of trains per day


9 ‐ 3 e^(0.919(Y‐X)) Traffic signal spacing (signals/mile) (Before) Traffic signal spacing (signals/mile) (After)

9 ‐ 4 e^(0.453(Y‐X)) Traffic signal spacing (signals/mile) (Before) Traffic signal spacing (signals/mile) (After)

9 ‐ 5 100*(1‐e^(‐1.8419(Y‐X))) Yellow change interval (seconds) (Before) Yellow change interval (seconds) (After)



9 ‐ 8 100*(1‐e^(‐0.988(Y‐X))) Red clearance interval from X to Y seconds (Before) Red clearance interval from X to Y seconds (After)



9 ‐ 11 100*(1‐e^(‐0.0444(Y‐X))) Number of traffic signal cycles per hour (Before) Number of traffic signal cycles per hour (After)

9 ‐ 12 100*(1‐e^(0.007(Y‐X))) Number of all‐way stop intersections (Before) Number of all‐way stop intersections (After)

9 ‐ 13 100*(1‐e^(0.077(Y‐X))) Number of signalized intersections (Before) Number of signalized intersections (After)


10 ‐ 1 e^(0.00053(Y‐X)) Unrestricted parking hours (Before) Unrestricted parking hours (After)




10 ‐ 5 e^(0.00052(Y‐X)) Unrestricted left turn hours (Before) Unrestricted left turn hours (After)



10 ‐ 8 e^(0.0026(Y‐X))Unrestricted left turn hours during rush hours

(Before)Unrestricted left turn hours during rush hours (After)






11 ‐ 1 100*(1‐e^(0.114(Y‐X))) Number of subway stations (Before) Number of subway stations (After)

11 ‐ 2 100*(1‐e^(0.012(Y‐X))) Number of bus stations (Before) Number of bus stations (After)

11 ‐ 3 100*(1‐e^(0.133(Y‐X))) Number of bus stops in 50m buffer (Before) Number of bus stops in 50m buffer (After)

Pedestrians

On Street Parking

Intersection traffic control

Intersection geometry



13 ‐ 1 100*(1‐e^(0.169(Y‐X))) Commercial land use/total land use (%) (Before) Commercial land use/total land use (%) (After)

13 ‐ 2 100*(1‐e^(2.153(Y‐X))) Industrial land use/total land use (%) (Before) Industrial land use/total land use (%) (After)

13 ‐ 3 100*(1‐e^(0.511(Y‐X))) Open land use/total land use (%) (Before) Open land use/total land use (%) (After)

13 ‐ 4 100*(1‐e^(1.389(Y‐X))) Total park area (in 1000 acres) (Before) Total park area (in 1000 acres) (After)


13 ‐ 5 e^(‐0.0905(Oa‐Ob)) Oa = after offset Ob = before offset

13 ‐ 6 (Da/Db)^(0.1162) Da = after density Db = before density


14 ‐ 1 3.705*e^(‐0.0616*totshld)totshld = Total width of the outside shoulder

(paved and unpaved shoulder, in feet)






14 ‐ 4 e^(‐0.116(Y‐X)) Bridge width (bridge minus roadway width) (Before) Bridge width (bridge minus roadway width) (After)

14 ‐ 5 e^(59.9(X‐Y)) Pavement macrotexture (inches) (Before) Pavement macrotexture (inches) (After)

14 ‐ 6 e^(0.1123‐0.0003*ADT)

14 ‐ 7 100*(1‐e^(0.214(Y‐X)))Proportion of 1‐lane roadways to total roadway

length (Before)

Proportion of 1‐lane roadways to total roadway

length (After)


length (Before)


length (After)


length (Before)


length (After)

14 ‐ 10 100*(1‐e^(0.530(Y‐X)))Proportion of primary roadway (without access

restriction) to total roadway length (Before)

Proportion of primary roadway (without access

restriction) to total roadway length (After)

14 ‐ 11 100*(1‐e^(‐1.050(Y‐X)))Proportion or primary roadway (with limited access)

to total roadway length (Before)

Proportion or primary roadway (with limited access)

to total roadway length (After)

14 ‐ 12 100*(1‐e^(‐0.418(Y‐X)))Proportion of length of roads with widths less than

30 feet to total roadway length (Before)

Proportion of length of roads with widths less than

30 feet to total roadway length (After)

14 ‐ 13 100*(1‐e^(‐0.207(Y‐X)))Proportion of local rural road to total roadway length

(Before)

Proportion of local rural road to total roadway length

(After)

14 ‐ 14 100*(1‐e^(‐0.704(Y‐X)))Proportion of other throughfare roadway to total

roadway length (Before)

Proportion of other throughfare roadway to total

roadway length (After)

14 ‐ 15 e^(‐0.0161(Y‐X)) Surface width (Before) Surface width (After)


14 ‐ 16 e^(‐0.36(X‐12)) X = Outside lane width (ft)



14 ‐ 19 [e^(‐0.59(X‐12))]*[e^(‐0.63(Y‐12))] X = Outside lane width (ft) Y = Inside lane width (ft)

14 ‐ 20 [e^(‐0.50(X‐12))]*[e^(‐0.75(Y‐12))] X = Outside lane width (ft) Y = Inside lane width (ft)




14 ‐ 23 1.085*e^(‐0.0082*medwd)median width (feet)

given the roadway is divided (div=1)

Roadway

Roadside



15 ‐ 1 e^(0.0969(Y‐X)) Paved shoulder width (ft) (Before) Paved shoulder width (ft) (After)



15 ‐ 4 e^(‐0.0372(Y‐X)) Paved shoulder width (ft) (Before) Paved shoulder width (ft) (After)

15 ‐ 5 e^(‐0.0912(Y‐X)) Left shoulder width (ft) (Before) Left shoulder width (ft) (After)

15 ‐ 6 e^(‐0.0017(Y‐X)) Right shoulder width (ft) (Before) Right shoulder width (ft) (After)


17 ‐ 1 e^(0.0111(Y‐X)) 85th percentile speed (Before) 85th percentile speed (After)

17 ‐ 2 e^(‐0.017(Y‐X)) Freeway speed limit (mph) (Before) Freeway speed limit (mph) (After)

17 ‐ 3 100*(1‐e^(0.158(Y‐X))) Posted speed limit (mph) (Before) Posted speed limit (mph) (After)

17 ‐ 4 e^(‐0.0136(Y‐X)) Posted speed limit (mph) (Before) Posted speed limit (mph) (After)

17 ‐ 5 e^(0.24556(Y‐X)) Mean speed (km/hr) (Before) Mean speed (km/hr) (After)

Speed management

Shoulder treatments


Lower-quality CMFs


Value Std. Err

All All 1.17 3.25 1


All All 0.93 2.31 1


Create directional median openings to allow left‐turns

and U‐turnsAll All 14319 ‐ 28154 0.49 2 MI

Incapacitating injury All 1.31 0.4669 2 FL

Serious injury All 1.41 0.3286 2 FL

All All 4900 ‐ 49500 1.68 0.71 2 FL

4900 ‐ 49500

For medians without trees compared to medians

with trees compliant with Florida’s design

standards.

3.26 2.22 2 FL

4900 ‐ 49500When the tree setback from median nose is

increased from 100ft to 200ft.0.82 0.09 2 FL

Value Std. Err

Provide active close‐following warning signs Rear‐end 0.94 0.72 1

Provide limited sight distance (LSD) warning signs Rural All All 1.07 0.67 1

All 1.13 1.19 1

Speed related 1.31 1.87 1

Truck related 0.29 0.96 1


PDO All 0.98 1.38 1

Presence of speed restriction devices (bike crashes) All Vehicle/bicycle 0.28 0.22 2 notusa

5500 ‐ 6900 0.27 0.2 2 NC

7700 ‐ 10100 0.15 0.19 2 NC

5500 ‐ 6900 0.46 0.19 2 NC

7700 ‐ 10100 0.3 0.11 2 NC

5500 ‐ 6900 0.55 0.26 1 NC

5500 ‐ 6900 Far‐side right angle crash 0.33 0.19 2 NC

5500 ‐ 6900 Near‐side right angle crash 3.19 3.66 1 NC

7700 ‐ 10100 0.33 0.12 2 NC

7700 ‐ 10100 Far‐side right angle crash 0.32 0.12 2 NC

7700 ‐ 10100 Near‐side right angle crash 0.76 1.16 1 NC

All 5500 ‐ 6900 0 1 NC

All 7700 ‐ 10100 0.38 0.51 1 NC

All 5500 ‐ 6900 0.89 0.43 1 NC

All 7700 ‐ 10100 0.3 0.14 2 NC

All 5500 ‐ 6900 0.1 0.12 2 NC

All 7700 ‐ 10100 0.29 0.17 2 NC

Install icy curve warning system Rural All All 0.82 0.08 2 CA

Install dynamic advance intersection warning system Rural

All

All

Angle

Fatal

Injury

PDO

State

Changeable curve speed warning signs Rural

All

Access Management

Advanced Technology and ITS

Countermeasures Area Type Crash Severity Crash Type AADT NoteCMF Star Quality

Rating

Convert an open median to a left‐in only median Urban/Suburban

Landscape medians at intersectionsFatal and injury All

CMF Star Quality

RatingState

Closure or complete relocation of all driveways from

functional area of intersection

Rural

Urban

Countermeasures Area Type Crash Severity Crash Type AADT Note

Note: The CMFs presented on this page are low quality CMFs with star‐ratings of 2 or lower. We do NOT recommend that these CMFs be used in PA.


Value Std. Err

Flatten horizontal curve All All 0.33 0.32 2 MN

Major Collector Eq. LQ 3‐1 2 IN

Minor Arterial Eq. LQ 3‐2 2 IN

Principal Arterial Other Eq. LQ 3‐3 2 IN







Change in average horizontal curve radius from X to Y (in

miles)Rural


Injury All

PDO All

Alignment


RatingState



Value Std. Err

Raised bicycle crossings Injury Vehicle/bicycle 1.09 0.53 1

Change sidewalk width from X to Y meters (bike crashes) All Vehicle/bicycle 0 2 notusa

Presence of crosswalk at signalized intersection (bike

crashes)All Vehicle/bicycle 8.76 13.7 2 notusa

1.37 2 notusa

0.8 2 notusa

Crossing crashes at 90 degrees from each other 0.63 2 notusa

Cyclist through, left turning vehicle in oncoming

direction1.33 2 notusa

Rear end & sideswipe, same direction 1.01 2 notusa

Cyclist through, right turning vehicle in same


Cyclist through, right turning vehicle in same


Other 1.02 2 notusa

1.4 2 notusa

0.6 2 notusa

1.36 2 notusa

0.97 2 notusa

Installation of colored bicycle lanes at signalized

intersectionsUrban/Suburban All Vehicle/bicycle 0.61 2 notusa

Installation of a cycle track 0‐2m from the side of the

main road with cyclist priority at intersectionsUrban/Suburban All Vehicle/bicycle 1.03 0.384 2 notusa

Installation of a cycle track over 5m from the side of the

main road with cyclist priority at intersectionsUrban/Suburban All Vehicle/bicycle 0.93 0.31 2 notusa

Installation of red color for bicycle crossings with cyclist

priority at intersectionsUrban/Suburban All Vehicle/bicycle 1.47 0.412 2 notusa

Installation of high quality markings for bicycle crossings

with cyclist priority at intersectionsUrban/Suburban All Vehicle/bicycle 1.74 0.618 2 notusa

Introduction of restricted visibility from vehicles on a

minor road to approaching bicyclists at intersections with

cyclist priority

Urban/Suburban All Vehicle/bicycle 1.37 0.33 2 notusa

Installation of left‐turn lane or left‐turn section on the

main road where cyclists have priority at the intersectionUrban/Suburban All Vehicle/bicycle 1.12 0.207 2 notusa

Installation of a speed hump or other speed reducing

measure for through motorized vehicles on the main

road

Urban/Suburban All Vehicle/bicycle 1.28 0.345 2 notusa

Installation of raised island and left‐turn lane Urban/Suburban All Vehicle/bicycle 1.48 0.393 2 notusa

Installation of raised island with a separate space for

cyclistsUrban/Suburban All Vehicle/bicycle 1.43 0.473 2 notusa

Installation of vehicle travel lanes Urban/Suburban All Vehicle/bicycle 1.67 0.635 2 notusa

Installation of additional travel lanes, a raised island and

left‐turn laneUrban/Suburban All All 0.96 0.582 2 notusa

Installation of additional travel lanes and a raised island Urban/Suburban All Vehicle/bicycle 1.1 0.456 2 notusa

Moving a separate bicycle crossing to a 4‐leg intersection Urban/Suburban All Vehicle/bicycle 1.28 0.518 2 notusa

Moving a separate bicycle crossing to a 3‐leg intersection Urban/Suburban All Vehicle/bicycle 0.83 0.331 2 notusa

Installation of bicycle lanes at signalized intersections

with shared through/right turn lanesUrban/Suburban All Vehicle/bicycle

Installation of bicycle lanes at signalized intersections

with exclusive right turn lanesUrban/Suburban All Vehicle/bicycle

Installation of bicycle lanes at signalized intersections Urban/Suburban All Vehicle/bicycle

Bicyclists


RatingState



Value Std. Err

All 1.1 1.26 1

Wet road 0.91 1.16 1


All 0.47 0.5 2

Wet road 0.51 0.55 1


Value Std. Err

Partial plus to partial interchange lighting Suburban Injury All 0.862 0.149 2 OR

Value Std. Err

All All 0.65 0.106 2 TX

Incapacitating injury All 0.33 0.382 1 TX

Minor injury All 0.49 0.103 2 TX

PDO All 1.13 0.317 1 TX

0.81 2 MO

All 0.54 2 MO

Left‐turn 0 1 MO

Rear‐end 0.71 2 MO

Minor injury All 0.28 2 MO

PDO All 0.63 2 MO

Convert diamond interchange to Diverging Diamond

Interchange (DDI) or Double Crossover Diamond (DCD)Urban

All

Star Quality

RatingState

Reverse X‐ramp exit and entry ramps Urban

State

Interchange Design

Countermeasures Area Type Crash Severity Crash Type AADT NoteCMF

Highway Lighting


Rating

State

Install transverse rumble strips, raised pavement

markers, and transverse markingsRural All

Install transverse rumble strips and raised pavement

markersRural All

Delineation


Rating



Value Std. Err

16900 ‐ 20000 0.39 0.135 2 NC

16900 ‐ 20000 At Downstream U‐turn locations 1.67 1.063 1 NC

45000 ‐ 47600 0.5 0.188 2 NC


16900 ‐ 20000 Broadside right‐angle 0 2 NC

16900 ‐ 20000 Far‐side right‐angle 0 2 NC

16900 ‐ 20000 Near‐side right‐angle 0 2 NC

16900 ‐ 20000 U‐turn (At main intersection) 1.27 1.199 1 NC

45000 ‐ 47600 Broadside right‐angle 0.08 0.084 1 NC


45000 ‐ 47600 Near‐side right‐angle 0.32 0.372 1 NC

16900 ‐ 20000 Opposing through 1.41 1.063 1 NC

45000 ‐ 47600 Opposing through 0.57 0.422 1 NC

Rear‐end 16900 ‐ 20000 0.63 0.509 1 NC

16900 ‐ 20000 0.85 0.883 1 NC

45000 ‐ 47600 0.95 0.959 1 NC

16900 ‐ 20000 0.85 1.249 1 NC

45000 ‐ 47600 1.42 1.309 1 NC

16900 ‐ 20000 0.85 1.249 1 NC

45000 ‐ 47600 0 2 NC

16900 ‐ 20000 0.2 0.118 1 NC

45000 ‐ 47600 0.81 0.458 1 NC

16900 ‐ 20000 0.63 0.294 2 NC

45000 ‐ 47600 0.36 0.195 1 NC

All 10670 ‐ 11240 0.08 0.041 1 MD

10670 ‐ 11240 Broadside right‐angle 0 2 MD

10670 ‐ 11240 Far‐side right‐angle 0 2 MD

10670 ‐ 11240 Near‐side right‐angle 0 2 MD

Rear‐end 10670 ‐ 11240 0.62 0.898 1 MD

Sideswipe,Head‐on 10670 ‐ 11240 0 2 MD

Single vehicle 10670 ‐ 11240 0.47 0.365 1 MD

Fatal All 10670 ‐ 11240 0 2 MD

Injury All 10670 ‐ 11240 0 2 MD

PDO All 10670 ‐ 11240 0.25 0.151 1 MD

28600 ‐ 29200 0.3 0.174 1 NC


28600 ‐ 29200 Broadside right‐angle 0 2 NC


28600 ‐ 29200 Near‐side right‐angle 0 2 NC

Left‐turn 28600 ‐ 29200 Opposing through 1.96 2.408 1 NC

Sideswipe 28600 ‐ 29200 0 2 NC

Single vehicle 28600 ‐ 29200 0.98 1.392 1 NC

Fatal All 28600 ‐ 29200 0 2 NC

Injury All 28600 ‐ 29200 0.49 0.427 1 NC

PDO All 28600 ‐ 29200 0.28 0.226 1 NC

Install turbo roundabout All All 0.239 0.296 2 notusa

All

CMF Star Quality

Rating

PDO All

Rural

All

Angle

Suburban

All

All

Angle

State

Install J‐turn intersection

All

All

Angle

Intersection Geometry


Left‐turn

Sideswipe

Single vehicle

Fatal All

Injury



Value Std. Err

0.213 0.421 2 notusa

0.319 0.585 2 notusa

Rear‐end 420 ‐ 15200 0 2 GA

Sideswipe 420 ‐ 15200 0 2 GA

All 0.77 0.19 1 MO

Broadside right‐angle 0.75 0.22 1 MO

Near‐side right‐angle 0.8 0.25 1 MO

Rear‐end 0.21 0.22 1 MO

Injury All 0.55 0.22 1 MO

7350 ‐ 8000 0.94 0.48 1 IA

10000 ‐ 11300 1.02 0.42 1 IA

5250 ‐ 5410 0.47 0.42 1 IA

5755 ‐ 6525 1.37 2 1 IA

6550 ‐ 7225 1.41 0.91 1 IA

7350 ‐ 8000 Broadside right‐angle 0.31 0.26 2 IA

7350 ‐ 8000 Near‐side right‐angle 0.47 0.42 1 IA

7350 ‐ 8000 Far‐side right‐angle 0 1 IA

10000 ‐ 11300 Broadside right‐angle 0.96 0.43 1 IA

10000 ‐ 11300 Near‐side right‐angle 1.39 0.83 1 IA

10000 ‐ 11300 Far‐side right‐angle 0.6 0.43 1 IA

7350 ‐ 8000 0 1 IA

10000 ‐ 11300 0 1 IA

Rear‐end 7350 ‐ 8000 0 1 IA

Fatal All 10000 ‐ 11300 2.78 3.48 1 IA

7350 ‐ 8000 1.41 0.92 1 IA

10000 ‐ 11300 0.7 0.4 1 IA

7350 ‐ 8000 0.47 0.42 1 IA

10000 ‐ 11300 1.39 1.01 1 IA

21000 ‐ 45000 1.59 2 NC

Sideswipe 21000 ‐ 45000 1.48 2 NC

Rear‐end 5900 ‐ 33500 0.99 0.24 2 NC

Sideswipe 5900 ‐ 33500 0.87 0.3 2 NC

All 434 ‐ 7300 Eq. LQ 8‐1 2

Rear‐end 434 ‐ 7300 Eq. LQ 8‐2 2

Change roundabout intersection sight distance from X to

YAll Run‐off‐road 434 ‐ 7300 Eq. LQ 8‐3 2

Convert high‐speed rural intersection to roundabout Rural Injury Rear‐end 0.54 2KS,MD,MN,OR,W

A,WI

Presence of an elevated road above intersection Urban All All 7700 ‐ 140300 1.58 0.32 2

StateAADT NoteCMF Star Quality

Rating

Convert a conventional unsignalized intersection to an

unsignalized superstreetRural All

Change roundabout circulating sight distance from X to Y All

Injury All

PDO All

Convert a conventional signalized intersection to a

signalized superstreetRural All

Install median acceleration lane RuralAll Angle

Install offset right‐turn lane Rural

All

All

Angle

Left‐turn

Install single lane roundabout All All

Increase the number of right‐turn lanes on the major

road from X to YRural All

Intersection Geometry (cont)




Value Std. Err

Convert stop control to yield control Urban/Suburban All All 2.27 1.26 1

Older driver crashes (ages 65+) 0.69 0.066 2 MI

Younger driver crashes (age 25‐64) 0.83 0.034 2 MI

Install double stop signs Urban All Angle 0.45 0.52 1 NC

Angle 0.38 0.129 2 MD

Rear‐end 0.64 0.138 2 MD

Add centerline and STOP bar, replace 24‐inch with 30‐

inch stop signsUrban All Angle 0.33 0.11 1 NC

All 0.976 2 TX

Angle 0.935 2 TX

All 0.922 2 TX

Angle 0.989 2 TX

All 0.691 2 TN

Angle 0.642 2 TX

All 0.88 0.12 2 NC

Sideswipe,Head‐on 1 0.17 2 NC


Head‐on,Rear‐end 1.01 2 notusa

Single vehicle 0 2 notusa

12000 ‐ 18000 0.71 0.19 2 notusa

18000 ‐ 40000 0.76 0.18 2 notusa

3‐leg intersections 0.25 2 notusa


5‐leg intersections 0 2 notusa

All intersections 1.37 2 notusa



















All 0.32 2 VA

Angle 0.26 2 VA

Rear‐end 0 2 VA

Fatal and injury All 0.26 2 VA

Angle,Head‐on,Left‐turn,Rear‐end,Rear to

rear,Right‐turn,Sideswipe0.44 2 NY

Vehicle/pedestrian 0.61 2 NY

Install flashing yellow arrow All Vehicle/pedestrian 1 2 MI

Vehicle/pedestrian

Installation of channelizing separator islands on side road

approaches with supplemental STOP signsRural

All

Provide split phases Urban All

All

Angle



Single vehicle

Vehicle/bicycle

Modify nighttime flash operation periodAll

Convert from yield signal control to signalized control

(intersection crashes)

All

Urban All

Change left turn phasing consistency from 31.6% to

27.3%All

Change left turn phasing consistency from 61.9% to

31.6%All

Install flashing beacons as advance warning All All

Change left turn phasing consistency from 27.3% to 9.1% All

State

Add additional signal and upgrade to 12‐inch lenses Urban All All

Intersection Traffic Control


Rating



Value Std. Err

Prohibit parking on one side of road Urban Injury All 1.49 0.78 1

All All 2.11 2.56 1

All Parking related 1.18 0.73 1

Value Std. Err

0.64 0.54 1

0.7 0.67 1


Raised median with unmarked crosswalk (uncontrolled) Urban/Suburban All Vehicle/pedestrian 0.61 2.02 2

AZ,CA,FL,KS,LA,M

D,MA,MO,NC,OH,

OR,PA,TX,UT,WA,

WI

Widen sidewalks at intersections Injury All 1.12 1.26 1


PDO All 1.13 1.4 1










Increase enforcement All Vehicle/pedestrian 0.77 2

Prohibit right‐turn‐on‐red All All 0.97 2

All Vehicle/pedestrian 0.14 2

Incapacitating injury Vehicle/pedestrian 0.1 2

Install refuge islands All Vehicle/pedestrian 0.44 2

Install sidewalk (to avoid walking along roadway) All Vehicle/pedestrian 0.12 2

Value Std. Err

All All 1.34 0.74 1

Fatal All 0 2.54 1


CMF Star Quality

RatingState

Install wire guardrails between lanes of opposing traffic


Install high‐visibility crosswalk Urban All

Install pedestrian overpass/underpass

Roadside Features

Increase cycle length for pedestrian crossing Urban All

Implement Barnes Dance Urban All

Install raised pedestrian crosswalks Urban/Suburban InjuryAll

Raised intersections


RatingState

State

Convert parallel parking to angle parking Urban

Pedestrians


On‐street Parking


Rating



Value Std. Err



PDO All 0.71 0.04 5



PDO All 0.76 0.02 5

All All 1.54 1.061 2 CA

Incapacitating injury All 1.2 1.957 2 CA

Refinish pavement with microsurfacing treatment All All 0.86 0.194 2 notusa

0 ‐ 2999/lane 0.86 0.757 2 notusa

3000 ‐ 6999/lane All 0.74 0.083 2 notusa

3000 ‐ 6999/lane Intersection 0.64 2 notusa

> 7000/lane 1.06 0.126 2 notusa

Rear‐end 0.67 2 notusa

Wet road 0.49 2 notusa

Resurface pavement with rubberized open‐graded

asphalt concrete (R‐OGAC)All All Wet road 1.07 0.49 2 CA

Expand truck lane restrictions on 2‐lane directional

interstate segments (screened)All Truck related 0.98 0.12755 2 VA

All All 0.61 0.16 2 MN

Fatal and injury All 0.27 0.21 1 MN

PDO All 0.71 0.21 1 MN

All 0.69 2 FL,KY,MO,PA

Angle 0.58 2 FL,KY,MO,PA

Rear‐end 1.54 2 FL,KY,MO,PA

Fatal and injury All 0.8 2 FL,KY,MO,PA

Fatal and injury All Eq. LQ 14‐1 2 IN

Injury All Eq. LQ 14‐2 2 IN

PDO All Eq. LQ 14‐3 2 IN

Convert from two‐way to one‐way traffic Urban All All 0.53 0.17 2 notusa

Value Std. Err

1.09 1.26 1

3.57 26.48 1

0.64 1.64 1

Pave narrow shoulder through curve All All 2.04 0.76 1 MN

Value Std. Err


PDO All 0.92 0.76 1

All 17100 ‐ 43000 1.07 0.18 2 MN

Angle 17100 ‐ 43000 0.69 0.19 1 MN

State

Advance static curve warning signs

Install improved advance freeway guidance signage Rural All

Signs


Rating

State

Barrier curb on the road edge Suburban All All

Shoulder Treatments


Rating

Install Cargill SafeLane anti‐icing pavement overlay

system on bridges

Installation of lane narrowing through rumble strips and

painted median at rural stop‐controlled approachesRural

All

Change in pavement condition from X to Y Rural

Convert continuous access HOV lanes to limited‐access

(HOV and left lane crashes)

Refinish pavement with resurfacing treatment All

All

State

Flatten sideslope from 1V:3H to 1V:4H Rural

Flatten sideslope from 1V:4H to 1V:6H Rural

Roadway Features


Rating



Value Std. Err

Install transverse rumble strips as traffic calming device Urban/Suburban PDO All 0.73 0.41 2

Head‐on 0.79 2 notusa

Parking related 0.44 2 notusa

Truck related 0.86 2 notusa

Value Std. Err

All 0.88 1 notusa

Vehicle/pedestrian 0.38 1 notusa

Vehicle/pedestrian Tram/Pedestrian crashes 1.77 1 notusa

Value Std. Err

Single lane closure All All 1.56 0.7 1

All All 0.54 1 AR

Fatal and injury All 2.24 2 AR

State

Implement left‐hand merge and downstream lane shift

(Iowa weave)Rural


State

Lower posted speed from 80 km/h to 60 km/h Rural Fatal

Transit

Speed Management

Countermeasures

Work Zones


Rating

CMF Star Quality

RatingState

Installation of new streetcar platforms at unprotected

stopsUrban All

Area Type Crash Severity Crash Type AADT NoteCMF Star Quality

Rating




LQ 3 ‐ 1 e^(0.0262(Y‐X)) Average horizontal radius in miles (mi) (Before) Average horizontal radius in miles (mi) (After)










LQ 8 ‐ 1 Y/X Circulating sight distance (ft) (Before) Circulating sight distance (ft) (After)

LQ 8 ‐ 2 Y/X Circulating sight distance (ft) (Before) Circulating sight distance (ft) (After)

LQ 8 ‐ 3 Y/X Intersection sight distance (ft) (Before) Intersection sight distance (ft) (After)


LQ 14 ‐ 1 e^(‐0.1962(Y‐X)) Pavement Condition (PSI) (Before) Pavement Condition (PSI) (After)



Alignment

Intersection geometry

Roadway

Note: The CMFs presented on this page are low quatlity CMFs with star‐ratings of 2 or lower. We do NOT recommend that these CMFs are used in PA.


pennsylvania cmf guide

Documents